Appendix F: Hazus-MH Data Dictionary Table of Contents F1. INTRODUCTION ............................................................................................ 8 F2. STATEWIDE HAZUS DATA INVENTORY ..................................................... 9 F3. SYSTEM BOUNDARIES: SYBOUNDARY.MDB .......................................... 13 F.3.1 DATABASE OVERVIEW................................................................................... 13 F.3.2 IDENTIFICATION ............................................................................................ 13 F.3.3 DATABASE CONTENT .................................................................................... 13 F.3.3.1 State Boundaries: syState Feature Class ............................................... 13 F.3.3.2 County Boundaries: syCounty Feature Class ......................................... 15 F.3.3.3 Census Tract Boundaries: syTract Feature Class .................................. 15 F4. STATE BOUNDARIES: BOUNDARY.MDB .................................................. 17 F.4.1 DATABASE OVERVIEW................................................................................... 17 F.4.2 IDENTIFICATION ............................................................................................ 18 F.4.3 DATABASE CONTENT .................................................................................... 18 F.4.3.1 County Boundaries: hzCounty ................................................................ 19 F.4.3.2 Census Tract Boundaries: hzTract ......................................................... 21 F.4.3.3 Census Block Boundaries: hzCensusBlock ............................................ 23 F.4.3.4 Demographics by Census Tract: hzDemographicT ................................ 26 F.4.3.5 Demographics by Census Block: hzDemographicB ................................ 30 F.4.3.6 Building Count by Census Tract: hzBldgCountOccupT .......................... 35 F.4.3.7 Building Count by Census Block: hzBldgCountOccupB .......................... 38 F.4.3.8 Building Replacement Value by Census Tract: hzExposureOccupT ...... 41 F.4.3.9 Building Replacement Value by Census Block: hzExposureOccupB ...... 44 F.4.3.10 Content Replacement Value by Census Tract: hzExposureContentOccupT ................................................................................ 47 Hazus-MH User’s Manual F.4.3.11 Content Replacement Value by Census Block: hzExposureContentOccupB ................................................................................ 50 F.4.3.12 Square Footage Value by Census Tract: hzSqFootageOccupT ........... 53 F.4.3.13 Square Footage Value by Census Block: hzSqFootageOccupB .......... 54 F.4.3.14 County Location Factor: hzMeansCountyLocationFactor ..................... 56 F.5 ESSENTIAL FACILITIES: EF.MDB .............................................................. 57 F.5.1 DATABASE OVERVIEW................................................................................... 57 F.5.2 IDENTIFICATION ............................................................................................ 58 F.5.3 DATABASE CONTENT .................................................................................... 58 F.5.3.1 Care Facilities Feature Class: hzCareFlty ............................................... 59 F.5.3.2 Earthquake Specific Care Facilities Table: eqCareFlty ........................... 61 F.5.3.3 Flood Specific Care Facilities Table: flCareFlty ...................................... 64 F.5.3.4 Emergency Operation Center Feature Class: hzEmergencyCtr ............. 66 F.5.3.5 Earthquake Specific Emergency Center Table: eqEmergencyCtr .......... 68 F.5.3.6 Flood Specific Emergency Center Facilities Table: flEmergencyCtr ....... 70 F.5.3.7 Fire Stations Feature Class: hzFireStation ............................................. 72 F.5.3.8 Earthquake Specific Fire Stations Table: eqFireStation .......................... 74 F.5.3.9 Flood Specific Fire Station Facilities Table: flFireStation ........................ 76 F.5.3.10 Police Station Feature Class: hzPoliceStation ...................................... 78 F.5.3.11 Earthquake Specific Police Stations Table: eqPoliceStation ................. 80 F.5.3.12 Flood Specific Police Station Facilities Table: flPoliceStation ............... 82 F.5.3.13 Schools Feature Class: hzSchool ......................................................... 84 F.5.3.14 Earthquake Specific School Table: eqSchool ....................................... 87 F.5.3.15 Flood Specific Schools Facilities Table: flSchool .................................. 89 F.6 TRANSPORTATION SYSTEMS: TRN.MDB ................................................ 90 F.6.1 DATABASE OVERVIEW................................................................................... 90 F.6.2 IDENTIFICATION ............................................................................................ 91 F.6.3 DATABASE CONTENT .................................................................................... 91 F.6.3.1 Airports Feature Class: hzAirportFlty ...................................................... 94 F.6.3.2 Earthquake Specific Airports Table: eqAirportFlty .................................. 97 Appendix F: Hazus-MH Data Dictionary F.6.3.3 Bus Facilities Feature Class: hzBusFlty ................................................ 100 F.6.3.4 Earthquake Specific Bus Facilities Table: eqBusFlty ............................ 103 F.6.3.5 Ferry Facilities Feature Class: hzFerryFlty ........................................... 106 F.6.3.6 Earthquake Specific Ferry Facilities Table: eqFerryFlty ........................ 109 F.6.3.7 Highway Bridges Feature Class: hzHighwayBridge .............................. 112 F.6.3.8 Earthquake Specific Highway Bridge Table: eqHighwayBridge ............ 116 F.6.3.9 Flood Specific Highway Bridge Table: flHighwayBridge ....................... 119 F.6.3.10 Highway Roads Feature Class: hzHighwaySegment .......................... 120 F.6.3.11 Earthquake Specific Highway Roads Table: eqHighwaySegment...... 123 F.6.3.12 Highway Tunnel Feature Class: hzHighwayTunnel ............................ 124 F.6.3.13 Earthquake Specific Highway Tunnel Table: eqHighwayTunnel ......... 127 F.6.3.14 Light Rail Bridges Feature Class: hzLightRailBridge .......................... 130 F.6.3.15 Earthquake Specific Light Rail Bridge Table: eqLightRailBridge ......... 134 F.6.3.16 Flood Specific Light Rail Bridge Table: flLightRailBridge .................... 137 F.6.3.17 Light Rail Facility Feature Class: hzLightRailFlty ................................ 138 F.6.3.18 Earthquake Specific Light Rail Facilities Table: eqLightRailFlty.......... 141 F.6.3.19 Light Rail Tracks Feature Class: hzLightRailSegment ........................ 144 F.6.3.20 Earthquake Specific Light Rail Tracks Table: eqLightRailSegment.... 147 F.3.21 Light Rail Tunnel Feature Class: hzLightRailTunnel .............................. 148 F.6.3.22 Earthquake Specific Light Rail Tunnel Table: eqLightRailTunnel ....... 151 F.6.3.23 Port and Harbor Facilities Feature Class: hzPortFlty .......................... 154 F.6.3.24 Earthquake Specific Care Facilities Table: eqPortFlty ........................ 157 F.6.3.25 Railway Facility Feature Class: hzRailFlty .......................................... 160 F.6.3.26 Earthquake Specific Railway Facilities Table: eqRailFlty .................... 163 F.6.3.27 Railway Bridges Feature Class: hzRailwayBridge .............................. 166 F.6.3.28 Earthquake Specific Railway Bridge Table: eqRailwayBridge ............ 170 F.6.3.29 Flood Specific Railway Bridge Table: flRailwayBridge ........................ 173 F.6.3.30 Railway Tracks Feature Class: hzRailwaySegment ............................ 174 F.6.3.31 Earthquake Specific Railway Tracks Table: eqRailwaySegment........ 177 F.6.3.32 Railway Tunnel Feature Class: hzRailwayTunnel ............................... 178 Hazus-MH User’s Manual F.6.3.33 Earthquake Specific Railway Tunnel Table: eqRailwayTunnel ........... 181 F.6.3.34 Airport Runways Feature Class: hzRunway........................................ 184 F.6.3.35 Earthquake Specific Airports Runway Table: eqRunway .................... 187 F.7 LIFELINE UTILITY SYSTEMS: UTIL.MDB ................................................. 189 F.7.1 DATABASE OVERVIEW................................................................................. 189 F.7.2 IDENTIFICATION .......................................................................................... 189 F.7.3 DATABASE CONTENT .................................................................................. 190 F.7.3.1 Communication Facilities Feature Class: hzCommunicationFlty .......... 192 F.7.3.2 Earthquake Specific Communication Facilities Table: eqCommunicationFlty ....................................................................................... 195 F.7.3.3 Electric Power Facilities Feature Class: hzElectricPowerFlty ............... 198 F.7.3.4 Earthquake Specific Electric Power Facilities Table: eqElectricPowerFlty 200 F.7.3.5 Flood Specific Electric Power Facilities Table: flElectricPowerFlty ....... 203 F.7.3.6 Natural Gas Facilities Feature Class: hzNaturalGasFlty ....................... 205 F.7.3.7 Earthquake Specific Natural Gas Facilities Table: eqNaturalGasFlty ... 207 F.7.3.8 Flood Specific Natural Gas Facilities Table: flNaturalGasFlty ............... 210 F.7.3.9 Natural Gas Pipelines Feature Class: hzNaturalGasPl ......................... 212 F.7.3.10 Earthquake Specific Natural Gas Pipeline Table: eqNaturalGasPl ..... 214 F.7.3.11 Flood Specific Natural Gas Pipeline Table: flNaturalGasPl................. 215 F.7.3.12 Oil Facilities Feature Class: hzOilFlty ................................................. 217 F.7.3.13 Earthquake Specific Oil Facilities Table: eqOilFlty .............................. 219 F.7.3.14 Flood Specific Oil Facilities Table: flOilFlty ......................................... 222 F.7.3.15 Oil Pipelines Feature Class: hzOilPl ................................................... 224 F.7.3.16 Earthquake Specific Oil Pipeline Table: eqOilPl ................................. 226 F.7.3.17 Flood Specific Oil Pipeline Table: flOilPl ............................................. 227 F.7.3.18 Potable Water Facilities Feature Class: hzPotableWaterFlty .............. 229 F.7.3.19 Earthquake Specific Potable Water Facilities Table: eqPotableWaterFlty 232 F.7.3.20 Flood Specific Potable Water Facilities Table: flPotableWaterFlty ...... 235 F.7.3.21 Potable Water Pipelines Feature Class: hzPotableWaterPl ................ 237 Appendix F: Hazus-MH Data Dictionary F.7.3.22 Earthquake Specific Potable Water Pipeline Table: eqPotableWaterPl 239 F.7.3.23 Flood Specific Potable Water Pipeline Table: flPotableWaterPl ......... 241 F.7.3.24 Potable Water Distribution Pipes Table: eqPotableWaterDL .............. 243 F.7.3.25 Waste Water Facilities Feature Class: hzWasteWaterFlty .................. 244 F.7.3.26 Earthquake Specific Waste Water Facilities Table: eqWasteWaterFlty 247 F.7.3.27 Flood Specific Waste Water Facilities Table: flWasteWaterFlty .......... 250 F.7.3.28 Waste Water Pipelines Feature Class: hzWasteWaterPl .................... 252 F.7.3.29 Earthquake Specific Waste Water Pipeline Table: eqWasteWaterPl .. 254 F.7.3.30 Flood Specific Waste Water Pipeline Table: flWasteWaterPl ............. 255 F.7.3.31 Waste Water Distribution Pipes Table: eqWasteWaterDL .................. 257 F.8 HIGH POTENTIAL LOSS FACILITIES: HPLF.MDB ................................... 258 F.8.1 DATABASE OVERVIEW................................................................................. 258 F.8.2 IDENTIFICATION .......................................................................................... 258 F.8.3 DATABASE CONTENT .................................................................................. 259 F.8.3.1 Dams Feature Class: hzDams .............................................................. 260 F.8.3.2 Earthquake Specific Dams Table: eqDams .......................................... 265 F.8.3.3 Hazardous Material Facilities Feature Class: hzHazmat ...................... 268 F.8.3.4 Earthquake Specific Hazardous Material Facilities Table: eqHazmat... 271 F.8.3.5 Levees Feature Class: hzLevees.......................................................... 274 F.8.3.6 Earthquake Specific Levees Table: eqLevees ...................................... 275 F.8.3.7 Military Facilities Feature Class: hzMilitary ........................................... 278 F.8.3.8 Earthquake Specific Military Table: eqMilitary ...................................... 281 F.8.3.9 Nuclear Power Plants Feature Class: hzNuclearFlty ............................ 284 F.8.3.10 Earthquake Specific Nuclear Power Plant Facilities Table: eqNuclearFlty 287 F.9 AGRICULTURE INVENTORY: FLAG.MDB ................................................ 289 F.9.1 DATABASE OVERVIEW................................................................................. 289 Hazus-MH User’s Manual F.9.2 IDENTIFICATION .......................................................................................... 290 F.9.3 DATABASE CONTENT .................................................................................. 290 F.9.3.1 Agriculture Crop Feature Class: flAgMap ............................................. 291 F.9.3.2 Agriculture Inventory Table: flAgricultureInventory ............................... 292 F.10 VEHICLES INVENTORY: FLVEH.MDB .................................................... 293 F.10.1 DATABASE OVERVIEW............................................................................... 293 F.10.2 IDENTIFICATION ........................................................................................ 293 F.10.3 DATABASE CONTENT ................................................................................ 293 F.10.3.1 Nighttime Vehicles Table: flNightVehicleInv ........................................ 294 F.10.3.2 Daytime Vehicles Table: flDayVehicleInv ............................................ 297 F.11 HURRICANE MODEL DATABASE: HUTEMPLATEGBS.MDB ................ 299 F.11.1 DATABASE OVERVIEW............................................................................... 299 F.11.2 IDENTIFICATION ........................................................................................ 299 F.11.3 DATABASE CONTENT ................................................................................ 299 F.11.3.1 Peak Gust Wind Speed by Return Period Table: huHazardMapWindSpeed ................................................................................. 300 F.11.3.2 Terrain Characterization Table: huTerrain .......................................... 302 F.11.3.3 Tree Characteristics Distribution Table: huTreeParameters ............... 303 F.11.3.4 Hurricane Model Census Tract Table: huTract ................................... 305 F.12 OCCUPANCY MAPPING SCHEME: MSH.MDB ...................................... 306 F.12.1 DATABASE OVERVIEW............................................................................... 306 F.12.1.1 OCCUPANCY MAPPING SCHEME FOR BUILDING TYPE ............................... 307 F.12.1.2 Flood Model Mapping Scheme ........................................................... 311 F.12.2 IDENTIFICATION ........................................................................................ 312 F.12.3 Database Content .................................................................................. 312 F.12.3.1 Building Schemes Catalog: hzGenBldgSchemes ............................... 315 F.12.3.14 Census Block Scheme Definition: flSchemeMapping ....................... 343 F.13 ACRONYMS AND ABBREVIATIONS ....................................................... 344 F.14 CLASSIFICATION SYSTEMS .................................................................. 345 Appendix F: Hazus-MH Data Dictionary TABLE F.14.2 STRUCTURAL BUILDING CLASSIFICATIONS ........................ 346 Table F.14.8 Light Rail System Classification ................................................... 355 Table F.14.9 Bus System Classification ............................................................ 356 Table F.14.10 Port and Harbor System Classification ...................................... 357 Table F.14.11 Ferry System Classification ....................................................... 358 Table F.14.12 Airport System Classification ..................................................... 359 Table F.14.14 Waste Water System Classification ........................................... 361 Table F.14.15 Oil System Classification ........................................................... 362 Table F.14.16 Natural Gas System Classification ............................................. 362 Table F.14.17 Electric Power System Classification ......................................... 363 Table F.14.18 Communication Classification .................................................... 363 15. NEW DESIGN LEVEL ................................................................................. 364 Hazus-MH User’s Manual F1. Introduction This data dictionary documents the structure and data elements of the Hazus-MH inventory data set that serves as source for creating study regions. The document is organized in 11 chapters. Chapter 1 introduces the inventory organization and storage as a system of folders and files; lists the major database components or databases and how they are organized by theme; and explains the naming conventions of feature classes and tables. The chapters describe each database separately: Chapter 2 syBoundary.mdb—System boundaries Chapter 3 Bndrygbs.mdb—State boundaries Chapter 4 Ef.mdb—Essential facilities Chapter 5 TRN.mdb—Transportation systems Chapter 6 UTIL.mdb—Lifeline utility systems Chapter 7 HPLF.mdb—High potential loss facilities Chapter 8 flAg.mdb—Agriculture inventory Chapter 9 flVEH.mdb—Vehicle inventory (flood hazard specific) Chapter 10 huTemplateGBS.mdb—Vehicle inventory (hurricane hazard specific) Chapter 11 MSH.mdb—Occupancy mapping scheme Each geodatabase section includes an overview of the database and how it is identified; a main table listing the sub-tables and feature classes, including a brief description of each; and a detailed table for each feature class and table. For each feature class and table, the following information is documented: Identification: Name of feature class or table Type: ESRI’s feature class or table type Purpose: Entity purpose in the aggregation process or/and analysis Data: Feature classes and tables field definition Feature class field definition Appendix F: Hazus-MH Data Dictionary Name: Field name. If a field is found in the study region databases, but not in the state database, a value of N/A is included in the column. Field Type: Contains the field format. If Access field type differs from ESRI field type, Access field type is shown in italics. Index: Indicates if the field has index. Index properties are provided. Required: For the aggregation process. Provides an indication of whether a value must be provided other than Null and those specified on Values column. Values: Identifies valid values for this data element. Field Description: Provides a human readable description of the field’s data element. F2. Statewide Hazus Data Inventory Starting with Hazus-MH MR5, the Hazus-MH state-level default databases are stored in a compressed format that allows all the U.S. data to fit in one DVD. Both the setup and the data DVDs can be ordered from the FEMA Distribution Center. The data for each state is compressed as one self-extracting file named with the state code (CA.EXE for California, GA.EXE for Georgia, and so on). When uncompressed, the state-specific data consists of: • A set of geodatabases with feature classes and tables related to all hazards. • For states considered by the Hurricane (HU) Model, the State folder contains: • A folder named HU consisting of one Access database—huTemplateGBS.mdb— that contains census tract information relative to terrain, wind speeds, and tree parameters. • A binary file that contains hurricane event data for probabilistic analysis named XX_HUR_50.BIN where XX is the abbreviation of the state name. Because Hazus-MH relies in ArcGIS, most default inventory data are stored in ArcGIS geodatabases, which are in Access format. The exceptions are a few Access databases that comprise plain tables. Also, feature classes and tables are organized in geodatabases by theme. For instance, transportation items are contained in a transportation-specific database Hazus-MH User’s Manual named “TRN.mdb”. Table 2 shows the geodatabases included in Hazus-MH. Each database is discussed in the following chapters. Appendix F: Hazus-MH Data Dictionary Table 1: Hazus-MH Inventory Geodatabases Database Name Description Location Relative to Hazus Data DVD1: syBoundary.mdb Contains GIS boundary information for the entire United States relative to states, counties, and census tracts. Located in the root directory of the DVD Bndrygbs.mdb Contains GIS boundary information for counties, census tracts, and census blocks for a given state. Also contains aggregated data including demographics, building square footage, building counts, structure exposure, and content exposure for a given state. Located in root/state (e.g., Alabama is AL1) folder of the DVD Ef.mdb Contains GIS location and hazard information for essential facilities including schools, hospitals, medical care facilities, police stations, and fire stations. Located in root/state (e.g., Alabama is AL1) folder of the DVD flAG.mdb Contains GIS boundary information for crops grown in areas of the state. Flood (FL) is the only model of the Hazus system to use this database. Located in root/state (e.g., Alabama is AL1) folder of the DVD flVEH.mdb Contains information for daytime and nighttime vehicle inventory by census block for the state. Flood (FL) is the only model of the Hazus software to use this database. Located in root/state (e.g., Alabama is AL1) folder of the DVD HPLF.mdb Contains GIS location and hazard information for high potential loss facilities (HPLF) that include dams, hazardous materials, levees, military installations, and nuclear facilities. Located in root/state (e.g., Alabama is AL1) folder of the DVD MSH.mdb Contains information for mapping schemes for the Earthquake (EQ) and Flood (FL) models. These mapping schemes refer to construction aspects for buildings. Located in root/state (e.g., Alabama is AL1) folder of the DVD TRN.mdb Contains GIS location and hazard information for transportation facilities including airports, buses, ferries, highways, light rail, railways, bridges, ports, Located in root/state (e.g., Alabama is AL1) folder of the DVD The Hazus-MH MR3 installation allows the user to specify the folder where the state data will be copied through the “Choose Data Path” dialog in the installation wizard. By default, the installation wizard will show the data path from where the installation program was launched (usually from a DVD drive). To access data from a location than the DVD drive, users must follow Hazus-MH Technical Manual instructions. Hazus-MH User’s Manual F-12 and runways. UTIL.mdb Contains GIS location and hazard information for utility features and facilities including communications, electric, natural gas, oil, potable water, and wastewater. Located in root/state (e.g., Alabama is AL1) folder of the DVD huTemplateGBS.mdb Contains census tract information for terrain, wind speeds, and tree parameters. Located in root/state/hu folder of the DVD. This file is only available for costal states which have been setup for hurricanes While point, line, and polygon features are stored in ESRI feature classes, not all attributes related to a particular entity are stored in the same feature record. Generally, attributes related to all hazards are stored in the feature record in a feature class named with a prefix hz. For instance, police station points are stored in a feature class name hzPoliceStation, while attributes specific to hazards (such as earthquakes and floods) are stored in records in separate tables. Table 3 shows all feature classes and tables with their respective prefix. Table 2: Feature Classes and Table Prefixes Prefix Description Example hz All hazards dataset hzPoliceStation eq Earthquake Model specific dataset eqPoliceStation fl Flood Model specific dataset flPoliceStation While point, line, and polygon features are stored in ESRI feature classes, not all attributes related to a particular entity are stored in the same feature record. In general, attributes related to all hazards are stored in the feature record in a feature class named with a prefix hz. For instance, police station points are stored in a feature class name hzPoliceStation while attributes specific to hazards (such as earthquake and flood) are stored in records in separate tables. Table 3 shows all feature classes and tables with their respective prefixes. Appendix F: Hazus-MH Data Dictionary F-13 F3. System Boundaries: syBoundary.mdb F.3.1 Database Overview The syBoundary is an ESRI Access personal geodatabase that contains the definition of state, county, and census tract boundaries in three feature classes. The geographical extent is nationwide, including features for the 50 states, the District of Columbia, and territories. This geodatabase is crucial during the aggregation process. It is used by Create Region Wizard to guide the user through the definition of a region. F.3.2 Identification syBoundary.mdb F.3.3 Database Content The syBoundary.mdb database includes: Name Type Content syState ESRI Feature Class US Census 2000 state boundaries for the 50 states, the District of Columbia, and territories syCounty ESRI Feature Class US Census 2000 county boundaries for the 50 states, the District of Columbia, and territories syTract ESRI Feature Class US Census 2000 census tract boundaries for the 50 states, the District of Columbia, and territories F.3.3.1 State Boundaries: syState Feature Class Identification: syState Type: ESRI Polygon Feature Class Purpose: Feature class that plays a crucial role during the aggregation process. It belongs to syBoundary.mdb. Provides the definition of state boundaries and the states available for the region aggregation process. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Inde x* Required* Values Description Hazus-MH User’s Manual StateFips Text(2) T T FIPS state code Federal Information Processing Standard (FIPS) state code State Text(2) T, U, A T USPS State name abbreviation United States Postal Service (USPS) state abbreviation StateName Text(40) F State name Region Short(2) Integer(2) F T 1 = Western United States 2= Central Eastern United States For determining attenuation relationships (EQ Model). See the Hazus-MH Earthquake Model Technical Manual, Chapter 4, Subsection 4.1.1.2, Input Requirements and Output Information, for details. NumCounties Short(2) Integer(2) F T Number of counties in the syCounty feature class belonging to the state record HUState Short(2) Integer(2) F T 0 = Non Hurricane State 1 = Hurricane State To identify if the State can be aggregated for the HU Model study region. If the value is 1, the state will be available in the Create Region Wizard State List. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-15 F.3.3.2 County Boundaries: syCounty Feature Class Identification: syCounty Type: ESRI Polygon Feature Class Purpose: A system boundaries feature class that plays a crucial role during the aggregation process. It belongs to syBoundary.mdb. Provides the definition of county boundaries and the counties available for the region aggregation process. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index* Required * Values Description CountyFips Text(5) T, U, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. CountyFips3 Text(3) T, NU, A T Three-digit FIPS county code Last three digits of the FIPS county code CountyName Text(40) T, NU, A T County name State Text(2) T, NU, A T USPS state abbreviation USPS state abbreviation StateFips Text(2) T, NU, A T FIPS state code FIPS state code NumTracts Short(2) Integer(2) F F Number of tracts in the syTract feature class belonging to the state record * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase F.3.3.3 Census Tract Boundaries: syTract Feature Class Identification: syTract Type: ESRI Polygon Feature Class Hazus-MH User’s Manual Purpose: A system boundaries feature class that plays a crucial role during the aggregation process. It belongs to syBoundary.mdb. Provides the definition of census tract boundaries and the census tract available for the region aggregation process. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index* Required* Values Description Tract Text(1 1) T, U, A T 11 digits of the census tract number 11 digits of the census tract number from the 2000 US Census CountyFips Text(5 ) T, NU, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. Tract6 Text(4 0) T, NU, A T Census tract six-digit number Census tract six-digit number from the 2000 US Census TractArea Float(4 ) Single( 4) F F Census tract area (in km²) CenLongit Double (8) Double (8) F F Longitude decimal degrees Census tract longitude (centroid) CenLat Double (8) Double (8) F F Latitude decimal degrees Census tract latitude (centroid) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F4. State Boundaries: Boundary.mdb F.4.1 Database Overview The bndrygbs.mdb is an Access personal geodatabase that contains boundary feature classes and tables with demographic (population, housing, age, etc.) and building inventory profiles aggregated at the census block and census track levels. The geographical domain of the database is the state. In that case, there is one bndrygbs.mdb database for each state, each one located in the appropriate state folder. County census tracts and census block boundaries are in separate feature classes. Data stored in individual tables include the following: • Square footage by occupancy. These data are the estimated floor area by specific occupancy (e.g., COM1). • Full replacement value by occupancy. These data provide estimated replacement values by specific occupancy (e.g., RES1). • Building count by occupancy. These data provide an estimated building count by specific occupancy (e.g., IND1). • General occupancy mapping. These data provide general mapping for the general building stock (GBS) inventory data from the specific occupancy to general building type (e.g., wood). • Demographics. These data provide housing and population statistics for the study region. The content of tables showing the building stock characteristics (e.g., replacement cost, building type, occupancy type, etc.) is used to estimate damages and economic losses. Demographic and housing characteristic are essential for estimating social impacts, such as shelter needs, household displacement, and casualties. During the creation of a study region, boundary geometry from feature classes is transferred to a geodatabase named RegionBndry.mdb in the Region folder for all hazards. Hazus-MH User’s Manual Demographic, building stock related data, and attributes from the feature classes as well as tables are transferred to the SQL Server database in the Region folder. F.4.2 Identification Boundary.mdb F.4.3 Database Content The Boundary.mdb database includes: Name Type Content hzCounty ESRI Polygon Feature Class US Census 2000 county boundaries hzTract ESRI Polygon Feature Class US Census 2000 census tract boundaries hzCensusBlock ESRI Polygon Feature Class US Census 2000 census block boundaries hzDemographicsT ESRI Table Demographics by census tract hzDemographicsB ESRI Table Demographics by census block hzBldgCountOccupT ESRI Table Building count by occupancy by census tract hzBldgCountOccupB ESRI Table Building count by occupancy by census tract hzExposureOccupT ESRI Table Building (without content) full replacement value by occupancy by census tract hzExposureOccupB ESRI Table Building (without content) full replacement value by occupancy by census block hzExposureContentOccupT ESRI Table Building content replacement value by occupancy by census tract hzExposureContentOccupB ESRI Table Building content replacement value by occupancy by census block hzSqFootageOccupT ESRI Table Square footage by occupancy by census tract hzSqFootageOccupB ESRI Table Square footage by occupancy by census block hzMeansCountyLocationFactor ESRI Table Means location factors for residential and nonresidential occupancies on a county basis Appendix F: Hazus-MH Data Dictionary F-19 F.4.3.1 County Boundaries: hzCounty Identification: hzCounty Type: ESRI Polygon Feature Class Purpose: A state extent boundaries feature. It belongs to Boundary.mdb. Provides the definition of county boundaries geometry and attributes in one state. Boundary geometries are transferred to a geodatabase named RegionBndry.mdb in the Region folder during the process of creating a new study region. Attributes are also transferred to the SQL Server database in the Region folder during this process. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index* Required* Values Description CountyFips Text(5) T, U, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS code; the remaining three digits are the county code. CountyFips3 Text(3) T, NU, A T Three-digit FIPS county code Last three digits of the FIPS county code. CountyName Text(40) T, NU, A T County name State Text(2) T, NU, A T USPS state abbreviation USPS state abbreviation StateFips Text(2) T, NU, A T FIPS state code FIPS state code NumAggrTracts Long(4) Long Integer(4) F F Number of tracts in the hztract feature. Hazus-MH User’s Manual * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-21 F.4.3.2 Census Tract Boundaries: hzTract Identification: hzTract Type: ESRI Polygon Feature Class Purpose: A state extent boundaries feature. It belongs to Boundary.mdb. Provides the definition of census tract boundaries geometry and attributes in one state. Boundary geometries are transferred to a geodatabase named RegionBndry.mdb in the Region folder during the process of creating a new study region. Attributes (e.g., tract number, building scheme Id) are also transferred to the SQL Server database in the Region folder during this process. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index* Require d* Values Description Tract Text(11) T, U, A T 11 digits of the census tract number 11 digits of the census tract number of the US Census 2000 CountyFips Text(5) T, NU, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. BldgSchemes Id Text(5) F T EQ specific building scheme according to the available values in table hzGenBldgSche mes in MSH.mdb for the state EQ specific building scheme according to the available values in table hzGenBldgSchemes in MSH.mdb for the state. See Occupancy Mapping Scheme: MSH.mdb. Tract6 Text(40) F T Census tract six-digit number of the US Census 2000 Hazus-MH User’s Manual TractArea Float(4) Single(4) F N Census tract area (in km²) CenLat Double(8) Double(8) F N Latitude Decimal Degrees Census tract latitude (centroid) CenLongit Double(8) Double(8) F N Longitude Decimal Degrees Census tract longitude (centroid) Length Float(4) Single(4) F N Total length (in kms) of street segment in the census tract. Length is used during the study region creation process to estimate distribution of pipeline length for potable water, wastewater, and natural gas. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-23 F.4.3.3 Census Block Boundaries: hzCensusBlock Identification: hzCensusBlock Type: ESRI Polygon Feature Class Purpose: A state extent boundaries feature. It belongs to Boundary.mdb. Provides the definition of census block boundaries geometry and attributes in one state. Boundary geometries are transferred to a geodatabase named RegionBndry.mdb in the Region folder during the process of creating a new study region when the flood hazard is included. Attributes (e.g., tract number, building scheme Id) are also transferred to the SQL Server database in the Region folder during this process. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlock Text(15) T, U, A 15 digits of the census block number Tract Text(11) T, NU, A T 11 digits of the census tract number BldgSchemesId Text(5) F T EQ specific building scheme accord to the available values in table hzGenBldgSchemes in MSH.mdb for the state. See Occupancy Mapping Scheme: MSH.mdb. BlockType Text(1) F T R=Riverine C=Coastal L=Lake Within the Hazus Flood Model, all census blocks have been assigned a code identifying the primary local flood hazard type and a foundation mapping scheme. The default value for all census blocks is “R” (riverine). Hazus-MH User’s Manual Census blocks immediately adjacent to the Great Lakes are coded as “L” for Great Lakes. Census blocks within the FEMA Q3’s for coastal regions are coded as “C” (coastal). BlockArea Float(4) Float(4) F F Census block area (in km²) CenLat Double(8 ) Double(8 ) F F Latitude Decimal Degrees Census block latitude (centroid) CenLongit Double(8 ) Double(8 ) F F Longitude Decimal Degrees Census block longitude (centroid) PctWithBasemnt Short(2) Integer(2) F F Percentage of residential units with basements (flood hazard specific field) Pct1StoryRes1 Short(2) Integer(2) F F Percentage of one-story single- family (flood hazard specific field) Pct2StoryRes1 Short(2) Integer(2) F F Percentage of two-story, single- family (flood hazard specific field) Pct3StoryRes1 Short(2) Integer(2) F F Percentage of three-story, single- family (flood hazard specific field) PctSplitLvlRes1 Short(2) Integer(2) F F Percentage of split level, single- family (flood hazard specific field) Pct1to2StryRes3 Short(2) Integer(2) F F Percentage of 1-2 story, multifamily (flood hazard specific field) Pct3to4StryRes3 Short(2) Integer(2) F F Percentage of 3-4-story, multifamily (flood hazard specific field) Appendix F: Hazus-MH Data Dictionary F-25 Pct5StryplusRes3 Short(2) Integer(2) F F Percentage of 5-story and up multi-family (flood hazard specific field) PctLowRiseOther Short(2) Integer(2) F F Percentage of all other occupancies, low-rise (flood hazard specific field) PctMidRiseOther Short(2) Integer(2) F F Percentage of all other occupancies, mid-rise (flood hazard specific field) PctHighRiseOther Short(2) Integer(2) F F Percentage of all other occupancies, high-rise (flood hazard specific field) Pct1CarGarage Short(2) Integer(2) F F Percentage of single-family with 1-car garage (flood hazard specific field) Pct2CarGarage Short(2) Integer(2) F F Percentage of single-family with 2-car garage (flood hazard specific field) Pct3CarGarage Short(2) Integer(2) F F Percentage of single-family with 3-car garage (flood hazard specific field) PctCarPort Short(2) Integer(2) F F Percentage of single-family with carport (flood hazard specific field) PctNoGarage Short(2) Integer(2) F F Percentage of single-family with no garage (flood hazard specific field) IncomeRatio Float(4) Single(4) F F Ratio of block group to state income (flood hazard specific field) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.4.3.4 Demographics by Census Tract: hzDemographicT Identification: hzDemographicT Type: ESRI Table Purpose: This table provides housing and population statistics at the census tract level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index* Required* Values Description CensusTract Text(11) T, U, A T 11 digits of the census tract number 11 digits of the census tract number Population Long(4) Long Integer(4) F F Total population Households Long(4) Long Integer(4) F F Total households GroupQuarters Long(4) Long Integer(4) F F Total group quarters MaleLess16 Long(4) Long Integer(4) F F Total number of males under 16 years of age Male16to65 Long(4) Long Integer(4) F F Total number of males aged 16 to 65 MaleOver65 Long(4) Long Integer(4) F F Total number of males over age 65 FemaleLess16 Long(4) Long Integer(4) F F Total number of females under 16 years of age Female16to65 Long(4) Long Integer(4) F F Total number of females aged 16 to 65 FemaleOver65 Long(4) Long Integer(4) F F Total number of females over age 65 MalePopulation Long(4) F F Total males Appendix F: Hazus-MH Data Dictionary F-27 Long Integer(4) FemalePopulation Long(4) Long Integer(4) F F Total females White Long(4) Long Integer(4) F F Total white population Black Long(4) Long Integer(4) F F Total black population NativeAmerican Long(4) Long Integer(4) F F Total Native American population Asian Long(4) Long Integer(4) F F Total Asian population Hispanic Long(4) Long Integer(4) F F Total Hispanic population PacifiIslander Long(4) Long Integer(4) F F Total Pacific Islander population OtherRaceOnly Long(4) Long Integer(4) F F Total other race population IncLess10 Long(4) Long Integer(4) F F Total households with less than $10,000 annual income Inc10to20 Long(4) Long Integer(4) F F Total households with $10,000 to $20,000 annual income Inc20to30 Long(4) Long Integer(4) F F Total households with $20,000 to $30,000 annual income Inc30to40 Long(4) Long Integer(4) F F Total households with $30,000 to $40,000 annual income Inc40to50 Long(4) Long Integer(4) F F Total households with $40,000 to $50,000 annual income Inc50to60 Long(4) Long Integer(4) F F Total households with $50,000 to $60,000 annual income Inc60to75 Long(4) Long Integer(4) F F Total households with $60,000 to $75,000 annual income Inc75to100 Long(4) F F Total households with Hazus-MH User’s Manual Long Integer(4) $75,000 to $100,000 annual income IncOver100 Long(4) Long Integer(4) F F Total households with more than $100,000 annual income ResidDay Long(4) Long Integer(4) F F Total daytime population ResidNight Long(4) Long Integer(4) F F Total nighttime population Hotel Long(4) Long Integer(4) F F Total population in hotels Visitor Long(4) Long Integer(4) F F Visitor population WorkingCom Long(4) Long Integer(4) F F Population working in commercial occupations WorkingInd Long(4) Long Integer(4) F F Population working in industrial occupations Commuting5PM Long(4) Long Integer(4) F F Population commuting at 5:00 p.m. OwnerSingleUnits Long(4) Long Integer(4) F F Owner-occupied, single- family units OwnerMultUnits Long(4) Long Integer(4) F F Owner-occupied, multifamily units OwnerMultStructs Long(4) Long Integer(4) F F Owner-occupied, multifamily structures OnwerMHs Long(4) Long Integer(4) F F Owner-occupied, manufactured housing RenterSingleUnits Long(4) Long Integer(4) F F Renter-occupied single family units RenterMultUnits Long(4) Long Integer(4) F F Renter-occupied, multifamily units RenterMultStructs Long(4) Long Integer(4) F F Renter-occupied, multifamily structures RenterMHs Long(4) Long Integer(4) F F Renter-occupied, manufactured housing VacantSingleUnits Long(4) Long Integer(4) F F Vacant single-family units VacantMultUnits Long(4) F F Vacant multi-family units Appendix F: Hazus-MH Data Dictionary F-29 Long Integer(4) VacantMultStructs Long(4) Long Integer(4) F F Vacant multi-family structures VacantMHs Long(4) Long Integer(4) F F Vacant manufactured housing BuiltBefore40 Short(2) Integer(2) F F Housing units built before 1940 Built40to49 Short(2) Integer(2) F F Housing units built between 1940 and 1949 Built50to59 Short(2) Integer(2) F F Housing units built between 1950 and 1959 Built60to69 Short(2) Integer(2) F F Housing units built between 1960 and 1969 Built70to79 Short(2) Integer(2) F F Housing units built between 1970 and 1979 Built80to89 Short(2) Integer(2) F F Housing units built between 1980 and 1989 Built90to98 Short(2) Integer(2) F F Housing units built between 1990 and 1998 BuiltAfter98 Short(2) Integer(2) F F Housing units built after 1998 MedianYearBuilt Short(2) Integer(2) F F Median year housing built AvgRent Long(4) Long Integer(4) F F Average cash rent AvgValue Long(4) Long Integer(4) F F Average home value SchoolEnrollmentKto 12 Long(4) Long Integer(4) F F School enrollment up to high school SchoolEnrollmentCol lege Long(4) Long Integer(4) F F College and university enrollment * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.4.3.5 Demographics by Census Block: hzDemographicB Identification: hzDemographicB Type: ESRI Table Purpose: This table provides housing and population statistics at census block level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region when the flood hazard is included. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlock Text(15) T, U, A T 15 digits of census block number 15 digits of census block number Population Long(4) Long Integer(4) F F Total population Households Long(4) Long Integer(4) F F Total households GroupQuarters Long(4) Long Integer(4) F F Total group quarters MaleLess16 Long(4) Long Integer(4) F F Total number of males under 16 years of age Male16to65 Long(4) Long Integer(4) F F Total number of males aged 16 to 65 MaleOver65 Long(4) Long Integer(4) F F Total number of males over age 65 FemaleLess16 Long(4) Long Integer(4) F F Total number of females under 16 years of age Female16to65 Long(4) F F Total number of females aged Appendix F: Hazus-MH Data Dictionary F-31 Long Integer(4) 16 to 65 FemaleOver65 Long(4) Long Integer(4) F F Total number of females over age 65 MalePopulation Long(4) Long Integer(4) F F Total males FemalePopulation Long(4) Long Integer(4) F F Total females White Long(4) Long Integer(4) F F Total white population Black Long(4) Long Integer(4) F F Total black population NativeAmerican Long(4) Long Integer(4) F F Total Native American population Asian Long(4) Long Integer(4) F F Total Asian population Hispanic Long(4) Long Integer(4) F F Total Hispanic population PacifiIslander Long(4) Long Integer(4) F F Total Pacific Islander population OtherRaceOnly Long(4) Long Integer(4) F F Total other race population IncLess10 Long(4) Long Integer(4) F F Total households with less than $10,000 annual income Inc10to20 Long(4) Long Integer(4) F F Total households with $10,000 to $20,000 annual income Inc20to30 Long(4) Long Integer(4) F F Total households with $20,000 to $30,000 annual income Inc30to40 Long(4) Long Integer(4) F F Total households with $30,000 to $40,000 annual income Inc40to50 Long(4) F F Total households with $40,000 Hazus-MH User’s Manual Long Integer(4) to $50,000 annual income Inc50to60 Long(4) Long Integer(4) F F Total households with $50,000 to $60,000 annual income Inc60to75 Long(4) Long Integer(4) F F Total households with $60,000 to $75,000 annual income Inc75to100 Long(4) Long Integer(4) F F Total households with $75,000 to $100,000 annual income IncOver100 Long(4) Long Integer(4) F F Total households with more than $100,000 annual income ResidDay Long(4) Long Integer(4) F F Total daytime population ResidNight Long(4) Long Integer(4) F F Total nighttime population Hotel Long(4) Long Integer(4) F F Total population in hotels Visitor Long(4) Long Integer(4) F F Visitor population WorkingCom Long(4) Long Integer(4) F F Population working in commercial occupations WorkingInd Long(4) Long Integer(4) F F Population working in industrial occupations Commuting5PM Long(4) Long Integer(4) F F Population commuting at 5:00 p.m. OwnerSingleUnits Long(4) Long Integer(4) F F Owner-occupied, single-family units OwnerMultUnits Long(4) Long Integer(4) F F Owner-occupied, multi-family units OwnerMultStructs Long(4) Long Integer(4) F F Owner-occupied, multi-family structures OnwerMHs Long(4) Long F F Owner-occupied, manufactured housing Appendix F: Hazus-MH Data Dictionary F-33 Integer(4) RenterSingleUnits Long(4) Long Integer(4) F F Renter-occupied, single-family units RenterMultUnits Long(4) Long Integer(4) F F Renter-occupied, multi-family units RenterMultStructs Long(4) Long Integer(4) F F Renter-occupied, multi-family structures RenterMHs Long(4) Long Integer(4) F F Renter-occupied, manufactured housing VacantSingleUnits Long(4) Long Integer(4) F F Vacant single-family units VacantMultUnits Long(4) Long Integer(4) F F Vacant multi-family units VacantMultStructs Long(4) Long Integer(4) F F Vacant multi-family structures VacantMHs Long(4) Long Integer(4) F F Vacant manufactured housing BuiltBefore40 Short(2) Integer(2) F F Housing units built before 1940 Built40to49 Short(2) Integer(2) F F Housing units built between 1940 and 1949 Built50to59 Short(2) Integer(2) F F Housing units built between 1950 and 1959 Built60to69 Short(2) Integer(2) F F Housing units built between 1960 and 1969 Built70to79 Short(2) Integer(2) F F Housing units built between 1970 and 1979 Built80to89 Short(2) Integer(2) F F Housing units built between 1980 and 1989 Built90to98 Short(2) Integer(2) F F Housing units built between 1990 and 1998 BuiltAfter98 Short(2) Integer(2) F F Housing units built after 1998 Hazus-MH User’s Manual MedianYearBuilt Short(2) Integer(2) F F Median year housing built AvgRent Long(4) Long Integer(4) F F Average cash rent AvgValue Long(4) Long Integer(4) F F Average home value SchoolEnrollmentKto1 2 Long(4) Long Integer(4) F F School enrollment up to high school SchoolEnrollmentColle ge Long(4) Long Integer(4) F F College and university enrollment * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-35 F.4.3.6 Building Count by Census Tract: hzBldgCountOccupT Identification: hzBldgCountOccupT Type: ESRI Table Purpose: This table provides building count by occupancy at the census tract level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusTra ct Text(11) T, U, A T 11 digits of the census tract number RES1I Short(2) Integer(2) F F Single family dwellings RES2I Short(2) Integer(2) F F Manufactured housing RES3AI Short(2) Integer(2) F F Duplex - 1 to 2 units RES3BI Short(2) Integer(2) F F Duplex - 3 to 4 units RES3CI Short(2) Integer(2) F F Duplex - 5 to 9 units RES3DI Short(2) Integer(2) F F Duplex - 10 to 19 units RES3EI Short(2) Integer(2) F F Duplex - 20 to 49 units RES3FI Short(2) Integer(2) F F Duplex - more than 50 units RES4I Short(2) Integer(2) F F Temporary lodging RES5I Short(2) Integer(2) F F Institutional dormitories RES6I Short(2) Integer(2) F F Nursing homes COM1I Short(2) Integer(2) F F Retail trade Hazus-MH User’s Manual COM2I Short(2) Integer(2) F F Wholesale trade COM3I Short(2) Integer(2) F F Personal and repairs services COM4I Short(2) Integer(2) F F Professional and technical services COM5I Short(2) Integer(2) F F Banks COM6I Short(2) Integer(2) F F Hospitals COM7I Short(2) Integer(2) F F Medical office and clinic COM8I Short(2) Integer(2) F F Entertainment and recreation COM9I Short(2) Integer(2) F F Theaters COM10I Short(2) Integer(2) F F Parking garages IND1I Short(2) Integer(2) F F Heavy industrial IND2I Short(2) Integer(2) F F Light industrial IND3I Short(2) Integer(2) F F Food/drugs/chemicals IND4I Short(2) Integer(2) F F Metal/minerals processing IND5I Short(2) Integer(2) F F High technology IND6I Short(2) Integer(2) F F Construction facilities and offices AGR1I Short(2) Integer(2) F F Agriculture facilities and offices REL1I Short(2) Integer(2) F F Churches and non-profit organizations GOV1I Short(2) Integer(2) F F Government - general services GOV2I Short(2) Integer(2) F F Government - emergency response EDU1I Short(2) Integer(2) F F Grade schools and administrative offices EDU2I Short(2) Integer(2) F F Colleges and universities Appendix F: Hazus-MH Data Dictionary * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.4.3.7 Building Count by Census Block: hzBldgCountOccupB Identification: hzBldgCountOccupB Type: ESRI Table Purpose: This table provides building count by occupancy at census block level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region when the flood hazard is included. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlo ck Text(15) T, U, A T 15 digits of the census block number 15 digits of the census block number RES1I Short(2) Integer(2) F F Single-family dwellings RES2I Short(2) Integer(2) F F Manufactured housing RES3AI Short(2) Integer(2) F F Duplex - 1 to 2 units RES3BI Short(2) Integer(2) F F Duplex - 3 to 4 units RES3CI Short(2) Integer(2) F F Duplex - 5 to 9 units RES3DI Short(2) Integer(2) F F Duplex - 10 to 19 units RES3EI Short(2) Integer(2) F F Duplex - 20 to 49 units RES3FI Short(2) Integer(2) F F Duplex - more than 50 units RES4I Short(2) Integer(2) F F Temporary lodging RES5I Short(2) Integer(2) F F Institutional dormitories RES6I Short(2) Integer(2) F F Nursing homes COM1I Short(2) F F Retail trade Appendix F: Hazus-MH Data Dictionary F-39 Integer(2) COM2I Short(2) Integer(2) F F Wholesale trade COM3I Short(2) Integer(2) F F Personal and repair services COM4I Short(2) Integer(2) F F Professional and technical services COM5I Short(2) Integer(2) F F Banks COM6I Short(2) Integer(2) F F Hospitals COM7I Short(2) Integer(2) F F Medical office and clinic COM8I Short(2) Integer(2) F F Entertainment and recreation COM9I Short(2) Integer(2) F F Theaters COM10I Short(2) Integer(2) F F Parking garages IND1I Short(2) Integer(2) F F Heavy industrial IND2I Short(2) Integer(2) F F Light industrial IND3I Short(2) Integer(2) F F Food/drugs/chemicals IND4I Short(2) Integer(2) F F Metal/minerals processing IND5I Short(2) Integer(2) F F High technology IND6I Short(2) Integer(2) F F Construction facilities and offices AGR1I Short(2) Integer(2) F F Agriculture facilities and offices REL1I Short(2) Integer(2) F F Churches and non-profit organizations GOV1I Short(2) Integer(2) F F Government - general services GOV2I Short(2) Integer(2) F F Government - emergency response EDU1I Short(2) Integer(2) F F Grade schools and administrative offices Hazus-MH User’s Manual EDU2I Short(2) Integer(2) F F Colleges and universities * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-41 F.4.3.8 Building Replacement Value by Census Tract: hzExposureOccupT Identification: hzExposureOccupT Type: ESRI Table Purpose: This table provides building (without content) full replacement value by occupancy at the census tract level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusTra ct Text(11) T, U, A F 11 digits of the census tract number 11 digits of the census tract number RES1I Long(4) Long Integer(4) F F Single-family dwellings RES2I Long(4) Long Integer(4) F F Manufactured housing RES3AI Long(4) Long Integer(4) F F Duplex - 1 to 2 units RES3BI Long(4) Long Integer(4) F F Duplex - 3 to 4 units RES3CI Long(4) Long Integer(4) F F Duplex - 5 to 9 units RES3DI Long(4) Long Integer(4) F F Duplex - 10 to 19 units RES3EI Long(4) Long Integer(4) F F Duplex - 20 to 49 units RES3FI Long(4) Long Integer(4) F F Duplex - more than 50 units RES4I Long(4) Long Integer(4) F F Temporary lodging RES5I Long(4) Long Integer(4) F F Institutional dormitories RES6I Long(4) Long Integer(4) F F Nursing homes Hazus-MH User’s Manual COM1I Long(4) Long Integer(4) F F Retail trade COM2I Long(4) Long Integer(4) F F Wholesale trade COM3I Long(4) Long Integer(4) F F Personal and repair services COM4I Long(4) Long Integer(4) F F Professional and technical services COM5I Long(4) Long Integer(4) F F Banks COM6I Long(4) Long Integer(4) F F Hospitals COM7I Long(4) Long Integer(4) F F Medical office and clinic COM8I Long(4) Long Integer(4) F F Entertainment and recreation COM9I Long(4) Long Integer(4) F F Theaters COM10I Long(4) Long Integer(4) F F Parking garages IND1I Long(4) Long Integer(4) F F Heavy industrial IND2I Long(4) Long Integer(4) F F Light industrial IND3I Long(4) Long Integer(4) F F Food/drugs/chemicals IND4I Long(4) Long Integer(4) F F Metal/minerals processing IND5I Long(4) Long Integer(4) F F High technology IND6I Long(4) Long Integer(4) F F Construction facilities and offices AGR1I Long(4) Long Integer(4) F F Agriculture facilities and offices REL1I Long(4) Long Integer(4) F F Churches and non-profit organizations GOV1I Long(4) Long Integer(4) F F Government - general services GOV2I Long(4) Long Integer(4) F F Government - emergency response EDU1I Long(4) Long Integer(4) F F Grade schools and administrative offices Appendix F: Hazus-MH Data Dictionary F-43 EDU2I Long(4) Long Integer(4) F F Colleges and universities * T=True, F=False, U=Unique, NU=Non-Unique, A=Ascending, D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.4.3.9 Building Replacement Value by Census Block: hzExposureOccupB Identification: hzExposureOccupB Type: ESRI Table Purpose: This table provides building (without content) full replacement value by occupancy at the census block level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region when the flood hazard is included. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlo ck Text(15) T, U, A T 15 digits of the census block number 15 digits of the census block number RES1I Long(4) Long Integer(4) F F Single-family dwellings RES2I Long(4) Long Integer(4) F F Manufactured housing RES3AI Long(4) Long Integer(4) F F Duplex - 1 to 2 units RES3BI Long(4) Long Integer(4) F F Duplex - 3 to 4 units RES3CI Long(4) Long Integer(4) F F Duplex - 5 to 9 units RES3DI Long(4) Long Integer(4) F F Duplex - 10 to 19 units RES3EI Long(4) Long Integer(4) F F Duplex - 20 to 49 units RES3FI Long(4) Long Integer(4) F F Duplex - more than 50 units RES4I Long(4) Long Integer(4) F F Temporary lodging RES5I Long(4) Long Integer(4) F F Institutional dormitories RES6I Long(4) Long Integer(4) F F Nursing homes COM1I Long(4) F F Retail trade Appendix F: Hazus-MH Data Dictionary F-45 Long Integer(4) COM2I Long(4) Long Integer(4) F F Wholesale trade COM3I Long(4) Long Integer(4) F F Personal and repair services COM4I Long(4) Long Integer(4) F F Professional and technical services COM5I Long(4) Long Integer(4) F F Banks COM6I Long(4) Long Integer(4) F F Hospitals COM7I Long(4) Long Integer(4) F F Medical office and clinic COM8I Long(4) Long Integer(4) F F Entertainment and recreation COM9I Long(4) Long Integer(4) F F Theaters COM10I Long(4) Long Integer(4) F F Parking garages IND1I Long(4) Long Integer(4) F F Heavy industrial IND2I Long(4) Long Integer(4) F F Light industrial IND3I Long(4) Long Integer(4) F F Food/drugs/chemicals IND4I Long(4) Long Integer(4) F F Metal/minerals processing IND5I Long(4) Long Integer(4) F F High technology IND6I Long(4) Long Integer(4) F F Construction facilities and offices AGR1I Long(4) Long Integer(4) F F Agriculture facilities and offices REL1I Long(4) Long Integer(4) F F Churches and non-profit organizations GOV1I Long(4) Long Integer(4) F F Government - general services GOV2I Long(4) Long Integer(4) F F Government - emergency response EDU1I Long(4) Long Integer(4) F F Grade schools and administrative offices Hazus-MH User’s Manual EDU2I Long(4) Long Integer(4) F F Colleges and universities * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-47 F.4.3.10 Content Replacement Value by Census Tract: hzExposureContentOccupT Identification: hzExposureContentOccupT Type: ESRI Table Purpose: This table provides building content replacement value by occupancy at the census tract level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusT ract Text(11) T, U, A T 11 digits of the census tract number 11 digits of the census tract number RES1I Long(4) Long Integer(4) F F Single-family dwellings RES2I Long(4) Long Integer(4) F F Manufactured housing RES3AI Long(4) Long Integer(4) F F Duplex - 1 to 2 units RES3BI Long(4) Long Integer(4) F F Duplex - 3 to 4 units RES3CI Long(4) Long Integer(4) F F Duplex - 5 to 9 units RES3DI Long(4) Long Integer(4) F F Duplex - 10 to 19 units RES3EI Long(4) Long Integer(4) F F Duplex - 20 to 49 units RES3FI Long(4) Long Integer(4) F F Duplex - more than 50 units RES4I Long(4) Long Integer(4) F F Temporary lodging RES5I Long(4) Long Integer(4) F F Institutional dormitories RES6I Long(4) F F Nursing homes Hazus-MH User’s Manual Long Integer(4) COM1I Long(4) F F Retail trade Long Integer(4) COM2I Long(4) F F Wholesale trade Long Integer(4) COM3I Long(4) F F Personal and repair services Long Integer(4) COM4I Long(4) Long Integer(4) F F Professional and technical services COM5I Long(4) F F Banks Long Integer(4) COM6I Long(4) F F Hospitals Long Integer(4) COM7I Long(4) F F Medical office and clinic Long Integer(4) COM8I Long(4) F F Entertainment and recreation Long Integer(4) COM9I Long(4) F F Theaters Long Integer(4) COM10 Long(4) F F Parking garages I Long Integer(4) IND1I Long(4) F F Heavy industrial Long Integer(4) IND2I Long(4) F F Light industrial Long Integer(4) IND3I Long(4) F F Food/drugs/chemicals Long Integer(4) IND4I Long(4) F F Metal/minerals processing Long Integer(4) IND5I Long(4) F F High technology Long Integer(4) IND6I Long(4) F F Construction facilities and offices Long Integer(4) AGR1I Long(4) F F Agriculture facilities and offices Long Integer(4) REL1I Long(4) Long Integer(4) F F Churches and non-profit organizations GOV1I Long(4) F F Government - general services Long Integer(4) GOV2I Long(4) Long Integer(4) F F Government - emergency response EDU1I Long(4) F F Grade schools and administrative Appendix F: Hazus-MH Data Dictionary F-49 Long Integer(4) offices EDU2I Long(4) Long Integer(4) F F Colleges and universities * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.4.3.11 Content Replacement Value by Census Block: hzExposureContentOccupB Identification: hzExposureContentOccupB Type: ESRI Table Purpose: This table provides building content replacement value by occupancy at the census block level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region when the flood hazard is included. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlo ck Text(15) T, U, A T 15 digits of the census block number 15 digits of the census block number RES1I Long(4) Long Integer(4) F F Single-family dwellings RES2I Long(4) Long Integer(4) F F Manufactured housing RES3AI Long(4) Long Integer(4) F F Duplex - 1 to 2 units RES3BI Long(4) Long Integer(4) F F Duplex - 3 to 4 units RES3CI Long(4) Long Integer(4) F F Duplex - 5 to 9 units RES3DI Long(4) Long Integer(4) F F Duplex - 10 to 19 units RES3EI Long(4) Long Integer(4) F F Duplex - 20 to 49 units RES3FI Long(4) Long Integer(4) F F Duplex - more than 50 units RES4I Long(4) Long Integer(4) F F Temporary lodging RES5I Long(4) Long Integer(4) F F Institutional dormitories RES6I Long(4) Long Integer(4) F F Nursing homes Appendix F: Hazus-MH Data Dictionary F-51 COM1I Long(4) Long Integer(4) F F Retail trade COM2I Long(4) Long Integer(4) F F Wholesale trade COM3I Long(4) Long Integer(4) F F Personal and repair services COM4I Long(4) Long Integer(4) F F Professional and technical services COM5I Long(4) Long Integer(4) F F Banks COM6I Long(4) Long Integer(4) F F Hospitals COM7I Long(4) Long Integer(4) F F Medical office and clinic COM8I Long(4) Long Integer(4) F F Entertainment and recreation COM9I Long(4) Long Integer(4) F F Theaters COM10I Long(4) Long Integer(4) F F Parking garages IND1I Long(4) Long Integer(4) F F Heavy industrial IND2I Long(4) Long Integer(4) F F Light industrial IND3I Long(4) Long Integer(4) F F Food/drugs/chemicals IND4I Long(4) Long Integer(4) F F Metal/minerals processing IND5I Long(4) Long Integer(4) F F High technology IND6I Long(4) Long Integer(4) F F Construction facilities and offices AGR1I Long(4) Long Integer(4) F F Agriculture facilities and offices REL1I Long(4) Long Integer(4) F F Churches and non-profit organizations GOV1I Long(4) Long Integer(4) F F Government - general services GOV2I Long(4) Long Integer(4) F F Government - emergency response EDU1I Long(4) F F Grade schools and administrative Hazus-MH User’s Manual Long Integer(4) offices EDU2I Long(4) Long Integer(4) F F Colleges and universities * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-53 F.4.3.12 Square Footage Value by Census Tract: hzSqFootageOccupT Identification: hzSqFootageOccupT Type: ESRI Table Purpose: This table provides square footage value by occupancy at census tract level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusTra ct Text(11) T, U, A T 11 digits of the census tract number 11 digits of the census tract number RES1F Float F F Single-family dwellings RES2F Float F F Manufactured housing RES3AF Float F F Duplex - 1 to 2 units RES3BF Float F F Duplex - 3 to 4 units RES3CF Float F F Duplex - 5 to 9 units RES3DF Float F F Duplex - 10 to 19 units RES3EF Float F F Duplex - 20 to 49 units RES3FF Float F F Duplex - more than 50 units RES4F Float F F Temporary lodging RES5F Float F F Institutional dormitories RES6F Float F F Nursing homes COM1F Float F F Retail trade COM2F Float F F Wholesale trade COM3F Float F F Personal and repair services COM4F Float F F Professional and technical services COM5F Float F F Banks COM6F Float F F Hospitals COM7F Float F F Medical office and clinic Hazus-MH User’s Manual COM8F Float F F Entertainment and recreation COM9F Float F F Theaters COM10F Float F F Parking garages IND1F Float F F Heavy industrial IND2F Float F F Light industrial IND3F Float F F Food/drugs/chemicals IND4F Float F F Metal/minerals processing IND5F Float F F High technology IND6F Float F F Construction facilities and offices AGR1F Float F F Agriculture facilities and offices REL1F Float F F Churches and non-profit organizations GOV1F Float F F Government - general services GOV2F Float F F Government - emergency response EDU1F Float F F Grade schools and administrative offices EDU2F Float F F Colleges and universities * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase F.4.3.13 Square Footage Value by Census Block: hzSqFootageOccupB Identification: hzSqFootageOccupB Type: ESRI Table Purpose: This table provides square footage value by occupancy at census block level for the study region. It belongs to Boundary.mdb. Data are transferred to the SQL Server database in the Region folder during the process of creating a new study region when the flood hazard is included. Data are subsequently used for Hazus-MH estimation of hazards, damages, and losses, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlo Text(15) T, U, T 15 digits of the 15 digits of the census block Appendix F: Hazus-MH Data Dictionary F-55 ck A census block number number RES1F Float F F Single-family dwellings RES2F Float F F Manufactured housing RES3AF Float F F Duplex - 1 to 2 units RES3BF Float F F Duplex - 3 to 4 units RES3CF Float F F Duplex - 5 to 9 units RES3DF Float F F Duplex - 10 to 19 units RES3EF Float F F Duplex - 20 to 49 units RES3FF Float F F Duplex - more than 50 units RES4F Float F F Temporary lodging RES5F Float F F Institutional dormitories RES6F Float F F Nursing homes COM1F Float F F Retail trade COM2F Float F F Wholesale trade COM3F Float F F Personal and repair services COM4F Float F F Professional and technical services COM5F Float F F Banks COM6F Float F F Hospitals COM7F Float F F Medical office and clinic COM8F Float F F Entertainment and recreation COM9F Float F F Theaters COM10F Float F F Parking garages IND1F Float F F Heavy industrial IND2F Float F F Light industrial IND3F Float F F Food/drugs/chemicals IND4F Float F F Metal/minerals processing IND5F Float F F High technology IND6F Float F F Construction facilities and offices AGR1F Float F F Agriculture facilities and offices REL1F Float F F Churches and non-profit organizations GOV1F Float F F Government - general services GOV2F Float F F Government - emergency Hazus-MH User’s Manual response EDU1F Float F F Grade schools and administrative offices EDU2F Float F F Colleges and universities * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase F.4.3.14 County Location Factor: hzMeansCountyLocationFactor Identification: hzMeansCountyLocationFactor Type: ESRI table Purpose: The Hazus Means-based location factor at the county level used to “localize” national costs to reflect local conditions. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CountyFips Text(5) F T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the FIPS state code; the remaining three digits are the county code. MeansAdjRes Double F F Means location factors for residential occupancies on a county basis MeansAdjNon Res Double F F Means location factors for nonresidential occupancies on a county basis * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F.5 Essential Facilities: EF.mdb F.5.1 Database Overview The EF.mdb is an Access personal geodatabase that contains (1) feature classes for essential facilities with fields that are relevant for all hazards and (2) tables with information specific to the EQ and FL Models. Essential facilities are those that provide services to the community and should be functional after an earthquake, flood, or hurricane event. Essential facilities include: • Fire stations • Police stations • Emergency centers • Care facilities (hospitals and medical clinics) • Schools (K-12 and colleges) The geographical domain of the database is the state. In that case, there is one EF.mdb database for each state, each located in the appropriate State folder. During the creation of a study region, for all hazards, essential facilities geometries from feature classes are transferred to a geodatabase named EF.mdb in the Region folder. Feature classes are named with the prefix hz, meaning they are relevant across all Hazus- MH Models. Police stations, for instance, are stored in hzPoliceStation feature class with fields containing information common to all hazards, such as name and address. This information is transferred to a table with the same name (for police station, hzPoliceStation) in the SQL Server database in the Region folder. Hazus-MH User’s Manual Hazard specific tables are named with the prefix eq (earthquake) and fl (flood), such as eqPoliceStation and flPoliceStation. The information is transferred to tables with the same name in the SQL Server database in the Region folder. There is a one-to-one relationship between hz tables and the corresponding eq and fl tables through a unique identifier. F.5.2 Identification EF.mdb F.5.3 Database Content The EF.mdb database includes: Name Type Content hzCareFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of hospitals and medical clinics hzEmergencyCtr ESRI Point Feature Class Geometry (point features) and all-hazards information of emergency operation centers (EOC) hzFireStation ESRI Point Feature Class Geometry (point features) and all-hazards information of fire stations hzPoliceStation ESRI Point Feature Class Geometry (point features) and all-hazards information of police stations hzSchool ESRI Point Feature Class Geometry (point features) and all-hazards information of schools and colleges eqCareFlty ESRI Table Earthquake specific information for hospitals and medical clinics eqEmergencyCtr ESRI Table Earthquake specific information for EOCs eqFireStation ESRI Table Earthquake specific information for fire stations eqPoliceStation ESRI Table Earthquake specific information for police stations eqSchool ESRI Table Earthquake specific information for schools and colleges flCareFlty ESRI Table Flood specific information for hospitals and medical clinics flEmergencyCtr ESRI Table Flood specific information for EOCs flFireStation ESRI Table Flood specific information for fire stations flPoliceStation ESRI Table Flood specific information for police stations flSchool ESRI Table Flood specific information for schools and colleges Appendix F: Hazus-MH Data Dictionary F-59 F.5.3.1 Care Facilities Feature Class: hzCareFlty Identification: hzCareFlty Type: ESRI Point Feature Class Purpose: Belongs to EF.mdb. Provides the geometry of hospitals and medical clinics. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named EF.mdb in the Region folder. Field information is transferred to a table with the same name (hzCareFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index* Require d* Values Description CareFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzCareFlty feature class with the associated eqCareFlty and flCareFlty tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. EfClass Text(5) T, NU, A T, UC EFHL=Large hospital EFHM=Medium hospital EFHS=Small hospital EFMC=Medical clinic MDFLT=Default value This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing the loss estimations produced by the EQ model. Tract Text(11) T, NU, T 11 digits of the Census tract number of the Hazus-MH User’s Manual A census tract number 2000 US Census Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 State Text(2) F F USPS state abbreviation Contact Text(40) F F Name of contact person for the facility PhoneNumber Text(14) F F Phone number to contact the facility Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No(1) F F 0=No 1=Yes Availability of backup power NumBeds Long(4) Long Integer(4) F F Maximum number of available patient beds AhaId Text(7) F F American Hospital Association (AHA) hospital identification number, if AHA data used Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-61 F.5.3.2 Earthquake Specific Care Facilities Table: eqCareFlty Identification: eqCareFlty Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Earthquake Model specific information for hospitals and medical clinics. During the creation of a study region, the table content is transferred to another table with the same name (eqCareFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqCareFlty for each record in hzCareFlty with the same CareFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CareFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqCareFlty feature class with the associated hzCareFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2 The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for descriptions of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code Building codes in effect in the area. See the Earthquake Technical Manual, Chapters 3 Hazus-MH User’s Manual LC = Low-Code PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code and 5, for design levels. FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is found in the table for future extensibility of the earthquake model but does not need to be populated at this time. SoilType Text(1) F T A = Soil type A B = Soil type B C = Soil type C D = Soil type D E = Soil type E National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines conditions where the structure is located. This is based on shear wave velocity. See Earthquake User Manual, Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility locattion. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Appendix F: Hazus-MH Data Dictionary F-63 Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.3 Flood Specific Care Facilities Table: flCareFlty Identification: flCareFlty Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Flood Model specific information of hospitals and medical clinics. During the creation of a study region, the table content is transferred to another table with the same name (flCareFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flCareFlty for each record in hzCareFlty with same CareFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CareFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flCareFlty feature class with the associated hzCareFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BldgType Text(15) F F Null, Masonry, Concrete, Wood, Steel, ManufHousing General building type DesignLevel Text(1) F F Null 0 = Pre-FIRM 1 = Post-FIRM Design level (Pre/Post FIRM) FoundationT Text(1) F F Null Foundation type (e.g., slab, pile) ype 1 = Basement 2 = Crawl 3 = Fill Appendix F: Hazus-MH Data Dictionary F-65 4 = Pier 5 = Pile 6 = Slab 7 = SolidWall FirstFloorHt Float(4) Single(4) F F First floor height BldgDamage FnId Text(10) F F Default building damage function id ContDamage FnId Text(10) F F Default content damage function id FloodProtect ion Short(2) Integer(2) F F Flood protection return period * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.4 Emergency Operation Center Feature Class: hzEmergencyCtr Identification: hzEmergencyCtr Type: ESRI Point Feature Class Purpose: Belongs to EF.mdb. Provides the geometry of EOCs. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named EF.mdb in the Region folder. Field information is transferred to a table with the same name (hzEmergencyCtr) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description EocId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzEmergencyCtr feature class with the associated eqEmergencyCtr and flEmergencyCtr tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. EfClass Text(5) T, NU, A T, UC EDFLT = Default EFEO = Emergency Operation Centers See Appendix B, Table B-3 This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ model. Tract Text(11) T, NU, A T 11 digits of the census tract number 11 digits of the census tract number Name Text(40) F F Facility name Appendix F: Hazus-MH Data Dictionary F-67 Address Text(40) F F Physical address City Text(40) F F City Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Statea Text(2) F F USPS state abbreviation Contact Text(40) F F Name of contact person for the facility PhoneNumb er Text(14) F F Phone number to contact the facility YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year the structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPowe r Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power ShelterCapac ity Short(2) Integer(2) F F Shelter capacity. This is for informational purposes only and is not used in any Hazus-MH calculations. This is the total number of persons who can be sheltered in this facility Area Float(4) Single(4) F F AHA hospital id number, if AHA data are used Kitchen Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether a kitchen is available in the facility Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.5 Earthquake Specific Emergency Center Table: eqEmergencyCtr Identification: eqEmergencyCtr Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Earthquake Model specific information of EOCs. During the creation of a study region, the table content is transferred to another table with the same name (eqEmergencyCtr) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqEmergencyCtr for each record in hzEmergencyCtr with same EocId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description EocId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqEmergencyCtr feature class with the associated hzEmergencyCtr in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B-2 The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about Appendix F: Hazus-MH Data Dictionary F-69 PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code design levels. FoundationT ype Text(1) F T Foundation type (e.g., slab, pile). This field is found in the table for future extensibility of the Earthquake Model, but does not need to be populated at this time. SoilType Text(1) F T See Appendix B, Table B.1 National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines structure location conditions. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility locattion. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.6 Flood Specific Emergency Center Facilities Table: flEmergencyCtr Identification: flEmergencyCtr Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Flood Model specific information of EOCs. During the creation of a study region, the table content is transferred to another table with the same name (flEmergencyCtr) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flEmergencyCtr for each record in hzEmergencyCtr with same EocId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description EocId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flEmergencyCtr feature class with the associated hzEmergencyCtr in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BldgType Text(15) F F Null, Masonry, Concrete, Wood, Steel, ManufHousing General building type DesignLevel Text(1) F F Null 0 = Pre-FIRM 1 = Post-FIRM Design level (Pre/Post FIRM) FoundationT Text(1) F F Null Foundation type (e.g., slab, pile) ype 1 = Basement 2 = Crawl 3 = Fill Appendix F: Hazus-MH Data Dictionary F-71 4 = Pier 5 = Pile 6 = Slab 7 = SolidWall FirstFloorHt Float(4) Single(4) F F First-floor height BldgDamage FnId Text(10) F F Default building damage function id ContDamage FnId Text(10) F F Default content damage function id FloodProtect ion Short(2) Integer(2) F F Flood protection return period * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.7 Fire Stations Feature Class: hzFireStation Identification: hzFireStation Type: ESRI Point Feature Class Purpose: Belongs to EF.mdb. Provides the geometry of fire stations. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named EF.mdb in the Region folder. Field information is transferred to a table with the same name (hzFireStation) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description FireStationId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzFireStation feature class with the associated eqFireStation and flFireStation tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. EfClass Text(5) T, NU, A T, UC EDFLT = Default EFFS = Fire Station This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Appendix F: Hazus-MH Data Dictionary F-73 Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Statea Text(2) F F USPS state abbreviation Contact Text(40) F F Contact name of person for the facility PhoneNumb er Text(14) F F Phone number to contact the facility YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPowe r Short(1) Yes/No(1) F F 0=No 1=Yes Availability of backup power ShelterCapac ity Short(2) Integer(2) F F Shelter capacity. This is for informational purposes only and is not used in any Hazus-MH calculations. This is the total number of persons who can be sheltered in this facility. Area Float(4) Single(4) F F AHA hospital id number, if AHA data are used. Kitchen Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether a kitchen is available in the facility. NumTrucks Short(2) Integer(2) F F Number of fire trucks in a fire station Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.8 Earthquake Specific Fire Stations Table: eqFireStation Identification: eqFireStation Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Earthquake Model specific information of fire stations. During the creation of a study region, the content of the table is transferred to another table with the same name (eqFireStation) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqFireStation for each record in hzFireStation with same FireStationId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description FireStationId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqFireStation feature class with the associated hzFireStation in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2 The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and, for detailed information about design levels. Appendix F: Hazus-MH Data Dictionary F-75 HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the Earthquake Model but does not need to be populated at this time. SoilType Text(1) F T See Appendix B, Table B.1 National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines structure location conditions. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility locattion. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.9 Flood Specific Fire Station Facilities Table: flFireStation Identification: flFireStation Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Flood Model specific information of fire stations. During creation of a study region, the table content is transferred to another table with the same name (flFireStation) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flFireStation for each record in hzFireStation with same FireStationId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description FireStationId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flFireStation feature class with the associated hzFireStation in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BldgType Text(15) F F Null, Masonry, Concrete, Wood, Steel, ManufHousing General building type DesignLevel Text(1) F F Null 0 = Pre-FIRM 1 = Post-FIRM Design level (Pre/Post FIRM) FoundationT Text(1) F F Null Foundation type (e.g., slab, pile) ype 1 = Basement 2 = Crawl 3 = Fill Appendix F: Hazus-MH Data Dictionary F-77 4 = Pier 5 = Pile 6 = Slab 7 = SolidWall FirstFloorHt Float(4) Single(4) F F First-floor height BldgDamage FnId Text(10) F F Default building damage function id ContDamage FnId Text(10) F F Default content damage function id FloodProtect ion Short(2) Integer(2) F F Flood protection return period * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.10 Police Station Feature Class: hzPoliceStation Identification: hzPoliceStation Type: ESRI Point Feature Class Purpose: Belongs to EF.mdb. Provides the geometry of police stations. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named EF.mdb in the Region folder. Field information is transferred to a table with the same name (hzPoliceStation) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PoliceStation Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzPoliceStation feature class with the associated eqPoliceStation and flPoliceStation tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. EfClass Text(5) T, NU, A T, UC EDFLT = Default EFFS = Police Station See Appendix B, Table B.4 This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address Appendix F: Hazus-MH Data Dictionary F-79 City Text(40) F F City Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Statea Text(2) F F USPS state abbreviation Contact Text(40) F F Name of contact person for the facility PhoneNumb er Text(14) F F Phone number to contact the facility YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPowe r Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power ShelterCapac ity Short(2) Integer(2) F F Shelter capacity. This is for informational purposes only and is not used in any Hazus-MH calculations. This is the total number of persons who can be sheltered in this facility. Area Float(4) Single(4) F F AHA hospital id number, if AHA data are used. Kitchen Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether a kitchen is available in the facility. Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.11 Earthquake Specific Police Stations Table: eqPoliceStation Identification: eqPoliceStation Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Earthquake Model specific information of police stations. During the creation of a study region, the table content is transferred to another table with the same name (eqPoliceStation) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqPoliceStation for each record in hzPoliceStation with same PoliceStationId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PoliceStation Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqPoliceStation feature class with the associated hzPoliceStation in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2 The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels Appendix F: Hazus-MH Data Dictionary F-81 HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, Table B.1 National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the structure location conditions. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility locattion. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicator of the landslide susceptibility of the facility location. See Earthquake Technical Manual (Section, 4.2 Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.12 Flood Specific Police Station Facilities Table: flPoliceStation Identification: flPoliceStation Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Flood Model specific information of police stations. During the creation of a study region, the table content is transferred to another table with the same name (flPoliceStation) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flPoliceStation for each record in hzPoliceStation with same PoliceStationId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PoliceStation Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this flPoliceStation feature class with the associated hzPoliceStation in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BldgType Text(15) F F Null, Masonry, Concrete, Wood, Steel, ManufHousing General building type DesignLevel Text(1) F F Null 0 = Pre-FIRM 1 = Post-FIRM Design level (Pre/Post FIRM) FoundationT Text(1) F F Null Foundation type (e.g., slab, pile) ype 1 = Basement 2 = Crawl 3 = Fill Appendix F: Hazus-MH Data Dictionary F-83 4 = Pier 5 = Pile 6 = Slab 7 = SolidWall FirstFloorHt Float(4) Single(4) F F First-floor height BldgDamage FnId Text(10) F F Default building damage function id ContDamage FnId Text(10) F F Default content damage function id FloodProtect ion Short(2) Integer(2) F F Flood protection return period * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F.5.3.13 Schools Feature Class: hzSchool Identification: hzSchool Type: ESRI Point Feature Class Purpose: Belongs to EF.mdb. Provides the geometry of schools, colleges, and universities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named EF.mdb in the Region folder. Field information is transferred to a table with the same name (hzSchool) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description SchoolId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzSchool feature class with the associated eqSchool and flSchool tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. EfClass Text(5) T, NU, A T, UC EDFLT = Default EFS1 = Grade School EFS2 = College/ University This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the census tract number Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address Appendix F: Hazus-MH Data Dictionary F-85 City Text(40) F F City Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Statea Text(2) F F USPS state abbreviation Contact Text(40) F F Name of contact person for the facility PhoneNumb er Text(14) F F Phone number to contact the facility YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) NumStudent s Short(2) Integer(2) F F Number of students in facility BackupPowe r Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power ShelterCapac ity Short(2) Integer(2) F F Shelter capacity. This is for informational purposes only and is not used in any Hazus-MH calculations. This is the total number of persons who can be sheltered in this facility Area Float(4) Single(4) F F AHA hospital id number, if AHA data are used District Text(30) F F Name of school district Kitchen Short(1) Yes/No(1) F F 0=No 1=Yes Indicates whether a kitchen is available in the facility Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Hazus-MH User’s Manual F-86 LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-87 F.5.3.14 Earthquake Specific School Table: eqSchool Identification: eqSchool Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Earthquake Model specific information of schools, colleges, and universities. During the creation of a study region, the table content is transferred to another table with the same name (eqSchool) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqSchool for each record in hzSchool with same SchoolId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description SchoolId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqSchool feature class with the associated hzSchool in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in HAZUS earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about Hazus-MH User’s Manual PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code design levels. FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is found in the table for future extensibility of the earthquake model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, table B-1 National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines structure location conditions. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility locattion. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicator of the landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-89 F.5.3.15 Flood Specific Schools Facilities Table: flSchool Identification: flSchool Type: ESRI Table Purpose: Belongs to EF.mdb. Provides Flood Model specific information of schools, colleges, and universities. During the creation of a study region, the table content is transferred to another table with the same name (flSchool) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flSchool for each record in hzSchool with same SchoolId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description SchoolId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flSchool feature class with the associated hzSchool in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BldgType Text(15) F F Null, Masonry, Concrete, Wood, Steel, ManufHousing General building type DesignLevel Text(1) F F Null 0 = Pre-FIRM 1 = Post-FIRM Design level (Pre/Post FIRM) FoundationT ype Text(1) F F Null 1 = Basement 2 = Crawl Foundation type (e.g., slab, pile) Hazus-MH User’s Manual 3 = Fill 4 = Pier 5 = Pile 6 = Slab 7 = SolidWall FirstFloorHt Float(4) Single(4) F F First-floor height BldgDamage FnId Text(10) F F Default building damage function id ContDamage FnId Text(10) F F Default content damage function id FloodProtect ion Short(2) Integer(2) F F Flood protection return period * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase F.6 Transportation Systems: TRN.mdb F.6.1 Database Overview The TRN.mdb is an Access personal geodatabase that contains feature classes for transportation systems with fields relevant to all hazards; it also contains tables with information specific to the EQ and FL Models. Transportation systems include: Highway segments, bridges, and tunnels Railway tracks, bridges, and tunnels Railway facilities Light rail tracks, bridges, and tunnels Light rail facilities Bus stations Ports Ferries Airports and runways Appendix F: Hazus-MH Data Dictionary The geographical domain of the database is the state. In that case, there is one TRN.mdb database for each state, each located in the appropriate State folder. The current version of the Flood Model provides only the level of damage to the bridge network and the subsequent bridge functionality. The Hurricane Model does not provide damage or loss estimates for transportation systems. During the creation of a study region, for all hazards, transportation system geometries from feature classes are transferred to a geodatabase named TRN.mdb in the Region folder. Feature classes are named with the prefix hz that means that are relevant across all Hazus- MH Models. Highway bridges, for instance, are stored in hzHighwayBridge feature class with fields containing information common to all hazards, such as name and address. This information is transferred to a table with the same name (for highway bridges, hzHighwayBridge) in the SQL Server database in the Region folder. Hazard specific tables are named with the prefix eq (earthquake) and fl (flood), such as eqHighwayBridge and flHighwayBridge. The information is transferred to tables with the same name in the SQL Server database in the Region folder. There is a one-to-one relationship between hz tables and the corresponding eq and fl tables through a unique identifier. F.6.2 Identification TRN.mdb F.6.3 Database Content The TRN.mdb database includes: Hazus-MH User’s Manual Name Type Content hzAirportFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of airports related facilities. Airport transportation systems consist of control towers, runways, terminal buildings, parking structures, and fuel, maintenance, and hangar facilities. hzBusFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of bus transportation facilities. Bus transportation systems consist of urban stations, fuel facilities, dispatch facilities, and maintenance facilities. hzFerryFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of ferry facilities. Ferry systems consist of waterfront structures, passenger terminals, fuel facilities, dispatch facilities, and maintenance facilities. hzHighwayBridge ESRI Point Feature Class Geometry (point features) and all-hazards information of highway bridges hzHighwaySegment ESRI Line Feature Class Geometry (line features) and all-hazards information highways hzHighwayTunnel ESRI Point Feature Class Geometry (point features) and all-hazards information of highway tunnels hzLightRailBridge ESRI Point Feature Class Geometry (point features) and all-hazards information of light rail bridges hzLightRailFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of light rail transportation facilities. Like railways, light rail systems are composed of tracks, bridges, tunnels, and facilities. The major difference between the two is the power supply, with light rail systems operating with DC power substations. hzLightRailSegment ESRI Line Feature Class Geometry (line features) and all-hazards information of light rail tracks hzLightRailTunnel ESRI Point Feature Class Geometry (point features) and all-hazards information of light rail tunnels hzPortFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of port and harbor facilities Appendix F: Hazus-MH Data Dictionary F-93 hzRailFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of railway transportation facilities hzRailwayBridge ESRI Point Feature Class Geometry (point features) and all-hazards information of railway bridges hzRailwaySegment ESRI Line Feature Class Geometry (line features) and all-hazards information of railway tracks hzRailwayTunnel ESRI Point Feature Class Geometry (point features) and all-hazards information of railway tunnels hzRunway ESRI Point Feature Class Geometry (point features) and all-hazards information of airport runways eqAirportFlty ESRI Table Earthquake specific information for airports facilities eqBusFlty ESRI Table Earthquake specific information for bus facilities eqFerryFlty ESRI Table Earthquake specific information for ferry facilities eqHighwayBridge ESRI Table Earthquake specific information for highway bridges eqHighwaySegment ESRI Table Earthquake specific information for highway segments eqHighwayTunnel ESRI Table Earthquake specific information for highway tunnels eqLightRailBridge ESRI Table Earthquake specific information for light rail bridges eqLightRailFlty ESRI Table Earthquake specific information for light rail facilities eqLightRailSegment ESRI Table Earthquake specific information for light rail segments eqLightRailTunnel ESRI Table Earthquake specific information for light rail tunnels eqPortFlty ESRI Table Earthquake specific information for port and harbor facilities eqRailFlty ESRI Table Earthquake specific information for railway facilities eqRailwayBridge ESRI Table Earthquake specific information for railway bridges eqRailwaySegment ESRI Table Earthquake specific information for railway segments eqRailwayTunnel ESRI Table Earthquake specific information for railway tunnels eqRunway ESRI Table Earthquake specific information for airport runways flExposureTransport ESRI Table Flood specific table (not used and not required) flHighwayBridge ESRI Table Flood specific information for highway bridges flLightRailBridge ESRI Table Flood specific information for light rail bridges flRailwayBridge ESRI Table Flood specific information for railway bridges Hazus-MH User’s Manual F.6.3.1 Airports Feature Class: hzAirportFlty Identification: hzAirportFlty Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of airports. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzAirportFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-95 Name ESRI Type (Size) Access Type (Size) Inde x* Require d* Values Description AirportFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzAirportFlty feature class with the associated eqAirportFlty table. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.12. Indicates facility classification. Used by Hazus-MH to identify appropriate damage curve to assess loss estimations produced by the EQ model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact person PhoneNumber Text(14) F F Facility contact phone number Use Text(10) F F Use Hazus-MH User’s Manual YearBuilt Short(2) Integer(2 ) F F Null or (= 1500 and = 2100) Year structure was built Cost Double(8 ) Currency (8) F F Replacement cost (in thousands) Cargo Long(4) Long Integer(4 ) F F Capacity of cargo that the facility handles (tons/day) NumFlights Short(2) Integer(2 ) F F Capacity of flights per day that the facility can handle NumPassengers Short(2) Integer(2 ) F F Number of passengers per day BackupPower Short(1) Yes/No( 1) F F 0 = No 1 = Yes Availability of backup power Latitude Double(8 ) Double(8 ) F F Latitude decimal degrees Latitude Longitude Double(8 ) Double(8 ) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-97 F.6.3.2 Earthquake Specific Airports Table: eqAirportFlty Identification: eqAirportFlty Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of airports. During the creation of a study region, the table content is transferred to another table with the same name (eqAirportFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqAirportFlty for each record in hzAirportFlty with same AirportFltyId unique identifier Data: Feature Class Field Definition Hazus-MH User’s Manual F-98 Name ESRI Type (Size) Access Type (Size) Ind ex* Require d* Values Description AirportFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqAirportFlty feature class with the associated hzAirportFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether facility is anchored to provide additional resistance to seismic forces. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. Appendix F: Hazus-MH Data Dictionary F-99 Code MS = Special Moderate-Code LS = Special Low- Code SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines structure location conditions. This is based on shear wave velocity. See Appendix B, Table B.1, for details LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2 Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2 Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-100 F.6.3.3 Bus Facilities Feature Class: hzBusFlty Identification: hzBusFlty Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of bus transportation facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzBusFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-101 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description BusFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzBusFlty feature class with the associated eqBusFlty table. The standard format adopted by Hazus is SSxxxxxx where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFcltyCl ass Text(5) T, NU, A T, UC See Appendix B, Table B.9. This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F Facility name Address Text(40) F Physical address City Text(40) F City Statea Text(2) F USPS state abbreviation Zipcode Text(10) F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F Facility owner name Contact Text(40) F Facility contact person PhoneNumber Text(14) F Facility contact phone number Use Text(10) F Use YearBuilt Short(2) F Null or Year structure was built Hazus-MH User’s Manual F-102 Integer(2) (= 1500 and = 2100) Cost Double(8) Currency(8 ) F Replacement cost (in thousands). This field is for informational purposes and has no bearing on any computation. BackupPower Short(1) Yes/No(1) F 0 = No 1 = Yes Availability of backup power Traffic Long(4) Long Integer(4) F Daily traffic (buses/day). This field is for informational purposes and has no bearing on any computation. Latitude Double(8) Double(8) F Y Latitude decimal degrees Latitude Longitude Double(8) Double(8) F Y Longitude decimal degrees Longitude Comment Text(40) F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-103 F.6.3.4 Earthquake Specific Bus Facilities Table: eqBusFlty Identification: eqBusFlty Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of bus transportation facilities. During the creation of a study region, the table content is transferred to another table with the same name (eqBusFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqBusFlty for each record in hzBusFlty with same BusFltyId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-104 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description BusFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqBusFlty feature class with the associated hzBusFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether facility is anchored to provide additional resistance to seismic forces. FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Code MS = Special Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. Appendix F: Hazus-MH Data Dictionary F-105 Moderate-Code LS = Special Low- Code SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines conditions of the structure location. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2 Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-106 F.6.3.5 Ferry Facilities Feature Class: hzFerryFlty Identification: hzFerryFlty Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of ferry transportation system facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzFerryFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-107 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description FerryFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzFerryFlty feature class with the associated eqFerryFlty table. The standard format adopted by Hazus is SSxxxxxx where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFcltyCl ass Text(5) T, NU, A T, UC See Appendix B, Table B-11. This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing the loss estimations produced by the EQ model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact person name PhoneNumber Text(14) F F Contact person phone number Use Text(10) F F Use YearBuilt Short(2) F F Null or Year structure was built Hazus-MH User’s Manual F-108 Integer(2) (= 1500 and = 2100) NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8 ) F F Replacement cost (in thousands). This field is for informational purposes and has no bearing on any computation. BackupPower Short(1) Yes/No(1) F F 0=No 1=Yes Availability of backup power Traffic Long(4) Long Integer(4) F F Daily traffic (ferry/day). This field is for informational purposes and has no bearing on any computation Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique, NU=Non-Unique, A=Ascending, D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-109 F.6.3.6 Earthquake Specific Ferry Facilities Table: eqFerryFlty Identification: eqFerryFlty Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of ferry transportation system facilities. During the creation of a study region, is transferred to a table with the same name (eqFerryFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqFerryFlty for each record in hzFerryFlty with same FerryFltyId unique identifier Data: Feature Class Field Definition Hazus-MH User’s Manual F-110 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description FerryFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqFerryFlty feature class with the associated hzFerryFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for a complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether the facility is anchored to provide additional resistance to seismic forces. FoundationT Text(1) F F Foundation type (e.g., slab, pile). Appendix F: Hazus-MH Data Dictionary F-111 ype This field is in the table for future extensibility of the Earthquake Model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions of the structure location. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-112 F.6.3.7 Highway Bridges Feature Class: hzHighwayBridge Identification: hzHighwayBridge Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of highway bridges. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzHighwayBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-113 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HighwayBri Text(8) T, U, T, UC Unique identifier for each record. dgeId A It relates this hzHighwayBridge feature class with the associated eqHighwayBridge and flHighwayBridge tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BridgeClass Text(5) T, NU, A T, UC See Appendix B, Table B.6. Indicates bridge classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Owner Text(25) F F Facility owner name BridgeType Text(8) F F Structural types based on the FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Bridge width (in meters) NumSpans Short(1) F F Number of spans Hazus-MH User’s Manual F-114 Byte(1) Length Long(4) Long Integer(4) F F Bridge length (in meters) MaxSpanLen gth Double(8) Double(8) F F Maximum span length (in meters) SkewAngle Double(8) Double(8) F F Skew angle (in degrees) SeatLength Double(8) Double(8) F F Seat length (in meters) SeatWidth Double(8) Double(8) F F Seat width (in meters) YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year built YearRemode led Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year remodeled PierType Text(10) F F Pier type based on FHWA classification scheme in the source database FoundationT ype Text(1) F F Foundation type based on FHWA classification scheme in the source database. ScourIndex Text(1) F F This field is significant for flood analysis, and is the second part of the bridge specific occupancy in the bridge damage function tables2. This field is not used in the EQ or HU Model 2 If the bridge is considered inundated then, the scour index is checked. If the scour index is in (4, 5, 6, 7, 8, 9, T, N) then no analysis is performed as the engineering study has determined that the bridge will not be subjected to scour. If the scour index is in (U, 1, 2, 3) then an analysis must be performed. Appendix F: Hazus-MH Data Dictionary F-115 calculations. Traffic Long(4) Long Integer(4) F F Average daily traffic (cars per day) TrafficIndex Text(2) F F Traffic index Condition Text(3) F F General condition rating based on the FHWA classification scheme in the source database Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-116 F.6.3.8 Earthquake Specific Highway Bridge Table: eqHighwayBridge Identification: eqHighwayBridge Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of highway bridges. During the creation of a study region, the table content is transferred to another table with the same name (eqHighwayBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqHighwayBridge for each record in hzHighwayBridge with same HighwayBridgeId unique identifier. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-117 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HighwayBri dgeId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqHighwayBridge feature class with the associated hzHighwayBridge in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null or = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters Hazus-MH User’s Manual F-118 * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-119 F.6.3.9 Flood Specific Highway Bridge Table: flHighwayBridge Identification: flHighwayBridge Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Flood Model specific information of highway bridges. During the creation of a study region, the content of the table is transferred to another table with the same name (flHighwayBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flHighwayBridge for each record in hzHighwayBridge with same HighwayBridgeId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HighwayBri Text(8) T, U, T, UC Unique identifier for each record. dgeId A It relates this flHighwayBridge feature class with the associated hzHighwayBridge in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. Elevation Double(8) Double(8) F F Elevation of bridge deck * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-120 F.6.3.10 Highway Roads Feature Class: hzHighwaySegment Identification: hzHighwaySegment Type: ESRI Line Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of highway roads. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Fields information is transferred to a table with the same name (hzHighwaySegment) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-121 Name ESRI Type (Size) Access Type (Size) Index * Required* Values Description HighwaySegId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzHighwaySegment feature class with the associated eqHighwaySegment table. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SegmentClass Text(5) T, NU, A T, UC See Appendix B, Table B.6. Indicates highway road classification. It is used by Hazus-MH to identify the appropriate damage curve to assess the loss estimations produced by the EQ model. CountyFips Text(5) T, NU, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. Name Text(40) F F Facility name Owner Text(25) F F Facility owner name Length Short(2) Integer(2) F F Highway segment length (in kilometers) Traffic Long(4) Long Integer(4) F F Average daily traffic (cars per day) Cost Double(8) Currency(8) F F Replacement cost (in thousands) Hazus-MH User’s Manual F-122 NumLanes Short(2) Integer(2) F F Number of lanes Pavement Text(10) F F Pavement type based on the FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Highway segment width (in meters) Capacity Long(4) Long Integer(4) F F Daily capacity (cars/day) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-123 F.6.3.11 Earthquake Specific Highway Roads Table: eqHighwaySegment Identification: eqHighwaySegment Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of highway roads. During the creation of a study region, the table content is transferred to a table with the same name (eqHighwaySegment) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqHighwaySegment for each record in hzHighwaySegment with same HighwaySegId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HighwaySeg Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqHighwaySegment feature class with the associated hzHighwaySegment in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-124 F.6.3.12 Highway Tunnel Feature Class: hzHighwayTunnel Identification: hzHighwayTunnel Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of highway tunnels. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzHighwayTunnel) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-125 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HighwayTun Text(8) T, U, T, UC Unique identifier for each record. nelId A It relates this hzHighwayTunnel feature class with the associated eqHighwayTunnel table. The standard format adopted by Hazus is SSxxxxxx where SS is the State name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. TunnelClass Text(5) T, NU, A T, UC See Appendix 6, Table B.6. Indicates tunnel classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Owner Text(25) F F Facility owner name Type Text(5) F F Structural types based on the FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Bridge width (in meters) Length Long(4) Long F F Bridge length (in meters) Hazus-MH User’s Manual F-126 Integer(4) YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Traffic Long(4) Long Integer(4) F F Average daily traffic (cars per day) Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-127 F.6.3.13 Earthquake Specific Highway Tunnel Table: eqHighwayTunnel Identification: eqHighwayTunnel Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of highway tunnels. During the creation of a study region, the table content is transferred to a table with the same name (eqHighwayTunnel) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqHighwayTunnel for each record in hzHighwayTunnel with same HighwayTunnelId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-128 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HighwayTun nelId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqHighwayTunnel feature class with the associated hzHighwayTunnel in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) N T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines structure location conditions. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Appendix F: Hazus-MH Data Dictionary F-129 LC=Lowercase Hazus-MH User’s Manual F-130 F.6.3.14 Light Rail Bridges Feature Class: hzLightRailBridge Identification: hzLightRailBridge Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of light rail bridges. During the creation of a study region, for all hazards, geometries are transfer to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzLightRailBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-131 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailBri Text(8) T, U, T, UC Unique identifier for each record. dgeId A It relates this hzLightRailBridge feature class with the associated eqLightRailBridge and flLightRailBridge tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the State name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. BridgeClass Text(5) T, NU, A T, UC See Appendix B, Table B.8. Indicates bridge classification. It is used by Hazus-MH to identify appropriate damage curve to assess the loss estimations produced by the EQ model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Owner Text(25) F F Facility owner name BridgeType Text(8) F F Structural types based on the FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Bridge width (in meters) NumSpans Short(1) F F Number of spans Hazus-MH User’s Manual F-132 Byte(1) Length Long(4) Long Integer(4) F F Bridge length (in meters) MaxSpanLen gth Double(8) Double(8) F F Maximum span length (in meters) SkewAngle Double(8) Double(8) F F Skew angle (in degrees) SeatLength Double(8) Double(8) F F Seat length (in meters) SeatWidth Double(8) Double(8) F F Seat width (in meters) YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year built YearRemode led Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year remodeled PierType Text(10) F F Pier type based on FHWA classification scheme in the source database FoundationT ype Text(1) F F Foundation type based on FHWA classification scheme in the source database ScourIndex Text(1) F F This field is significant to flood analysis and is the second part of the bridge specific occupancy in the bridge damage function tables3. This field is not used in the If the bridge is considered inundated then, the scour index is checked. If the scour index is in (4, 5, 6, 7, 8, 9, T, N) then no analysis is performed as the engineering study has determined that the bridge will not be subjected to scour. If the scour index is in (U, 1, 2, 3) then an analysis must be performed. Appendix F: Hazus-MH Data Dictionary F-133 earthquake or hurricane model calculations. Traffic Long(4) Long Integer(4) F F Average daily traffic (trains/day) TrafficIndex Text(2) F F Traffic index Condition Text(3) F F General condition rating based on FHWA classification scheme in the source database Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-134 F.6.3.15 Earthquake Specific Light Rail Bridge Table: eqLightRailBridge Identification: eqLightRailBridge Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of light rail bridges. During the creation of a study region, the table content is transferred to another table with the same name (eqLightRailBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqLightRailBridge for each record in hzLightRailBridge with same LightRailBridgeId unique identifier. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-135 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailBri dgeId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqLightRailBridge feature class with the associated hz in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. Hazus-MH User’s Manual F-136 * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-137 F.6.3.16 Flood Specific Light Rail Bridge Table: flLightRailBridge Identification: flLightRailBridge Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Flood Model specific information of light rail bridges. During the creation of a study region, the table content is transferred to a table with the same name (flLightRailBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flLightRailBridge for each record in hzLightRailBridge with same LightRailBridgeId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailBri Text(8) T, U, T, UC Unique identifier for each record. dgeId A It relates this flLightRailBridge feature class with the associated hzLightRailBridge in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. Elevation Double(8) Double(8) F F Elevation of bridge deck * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-138 F.6.3.17 Light Rail Facility Feature Class: hzLightRailFlty Identification: hzLightRailFlty Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of light rail facilities. During the creation of a study region, for all hazards, geometries are transfer to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzLightRailFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-139 Name ESRI Type (Size) Access Type (Size) Inde x* Require d* Values Description LightRailFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzLightRailFlty feature class with the associated eqLightRailFlty table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.8. Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Owner name of the facility Contact Text(40) F F Contact name of person for the facility PhoneNumber Text(14) F F Phone number to contact the Hazus-MH User’s Manual F-140 facility Use Text(10) F F Use YearBuilt Short(2) Integer(2 ) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8 ) Currency (8) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No( 1) F F 0 = No 1=Yes Availability of backup power Traffic Long(4) Long Integer(4 ) F F Average daily traffic (trains/day) Latitude Double(8 ) Double(8 ) F F Latitude decimal degrees Latitude Longitude Double(8 ) Double(8 ) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-141 F.6.3.18 Earthquake Specific Light Rail Facilities Table: eqLightRailFlty Identification: eqLightRailFlty Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of light rail facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqLightRailFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqLightRailFlty for each record in hzLightRailFlty with same LightRailFltyId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-142 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailFlt yId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqLightRailFlty feature class with the associated hzLightRailFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether the facility is anchored to provide additional resistance to seismic forces. FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the Earthquake Model, but does not need to be populated at this time. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels Appendix F: Hazus-MH Data Dictionary F-143 MS = Special Moderate-Code LS = Special Low- Code SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, of the Earthquake User Manual for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-144 F.6.3.19 Light Rail Tracks Feature Class: hzLightRailSegment Identification: hzLightRailSegment Type: ESRI Line Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of light rail tracks. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzLightRailSegment) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-145 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailSegId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzLightRailSegment feature class with the associated eqLightRailSegment table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SegmentClass Text(5) T, NU, A T, UC See Appendix B, Table B.8. Indicates highway road classification. It is used by Hazus-MH to identify the appropriate damage curve to assess the loss estimations produced by the EQ Model. CountyFips Text(5) T, NU, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. Name Text(40) F F Track segment name Owner Text(25) F F Owner of track segment Length Short(2) Integer(2) F F Section length (in kms) NumTracks Short(1) Byte(1) F F Number of tracks Traffic Long(4) F F Average daily traffic (trains/day) Hazus-MH User’s Manual F-146 Long Integer(4) Cost Double(8) Currency( 8) F F Replacement cost (in thousands) Comment Text(40) F F Comments Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-147 F.6.3.20 Earthquake Specific Light Rail Tracks Table: eqLightRailSegment Identification: eqLightRailSegment Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of highway roads. During the creation of a study region, the table content is transferred to another table with the same name (eqLightRailSegment) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqLightRailSegment for each record in hzLightRailSegment with same LightRailSegId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailSeg Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqLightRailSegment feature class with the associated hzLightRailSegment in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-148 F.3.21 Light Rail Tunnel Feature Class: hzLightRailTunnel Identification: hzLightRailTunnel Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of light rail tunnels. During the creation of a study region, for all hazards, geometries are transfer to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzLightRailTunnel) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-149 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailTu Text(8) T, U, T, UC Unique identifier for each record. nnelId A It relates this hzLightRailTunnel feature class with the associated eqLightRailTunnel table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TunnelClass Text(5) T, NU, A T, UC See Appendix B, Table B.8. Indicates tunnel classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Owner Text(25) F F Facility owner name Type Text(5) F F Structural types based on FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Bridge width (in meters) Length Long(4) Long F F Bridge length (in meters) Hazus-MH User’s Manual F-150 Integer(4) YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Traffic Long(4) Long Integer(4) F F Average daily traffic (trains/day) Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-151 F.6.3.22 Earthquake Specific Light Rail Tunnel Table: eqLightRailTunnel Identification: eqLightRailTunnel Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of light rail tunnels. During the creation of a study region, the table content is transferred to a table with the same name (eqLightRailTunnel) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqLightRailTunnel for each record in hzLightRailTunnel with same LightRailTunnelId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-152 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LightRailTu nnelId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqLightRailTunnel feature class with the associated hzLightRailTunnel in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1 for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Appendix F: Hazus-MH Data Dictionary F-153 LC=Lowercase Hazus-MH User’s Manual F-154 F.6.3.23 Port and Harbor Facilities Feature Class: hzPortFlty Identification: hzPortFlty Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of ports and harbors facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzPortFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-155 Name ESRI Type (Size) Access Type (Size) Ind ex* Requir ed* Values Description PortFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzPortFlty feature class with the associated eqPortFlty table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFltyClass Text(5) T, NU , A T, UC See Appendix B, table B-10 Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve to assess the loss estimations produced by the EQ model. Tract Text(11) T, NU , A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact name PhoneNumber Text(14) F F Facility contact phone number Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = Year structure was built Hazus-MH User’s Manual F-156 2100) BackupPower Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power Cost Double(8) Currency(8) F F Replacement cost (in thousands) Capacity Long(4) Long Integer(4) F F Capacity (tons/day) NumBerths Short(2) Integer(2) F F Number of berths NumCranes Short(2) Integer(2) F F Number of cranes Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-157 F.6.3.24 Earthquake Specific Care Facilities Table: eqPortFlty Identification: eqPortFlty Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of ports and harbors facilities. During the creation of a study region, the table content is transferred to another table with the same name (eqPortFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqPortFlty for each record in hzPortFlty with same PortFltyId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-158 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PortFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqPortFlty feature class with the associated hzPortFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. FoundationT ype Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. Appendix F: Hazus-MH Data Dictionary F-159 SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, of the Earthquake User Manual for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-160 F.6.3.25 Railway Facility Feature Class: hzRailFlty Identification: hzRailFlty Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of railway transportation facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzRailFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-161 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzRailFlty feature class with the associated eqRailFlty table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFcltyCl ass Text(5) T, NU, A T, UC See Appendix B, Table B-7 Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve to assess the loss estimations produced by the EQ Model Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact name PhoneNumber Text(14) F F Facility phone number Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = Year structure was built Hazus-MH User’s Manual F-162 2100) NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8 ) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power Traffic Long(4) Long Integer(4) F F Average daily traffic (trains/day) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-163 F.6.3.26 Earthquake Specific Railway Facilities Table: eqRailFlty Identification: eqRailFlty Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of light rail facilities. During the creation of a study region, the content of the table is transferred to a table with the same name (eqRailFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqLightRailFlty for each record in hzRailFlty with same RailFltyId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-164 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqRailFlty feature class with the associated hzRailFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether facility is anchored to provide additional resistance to seismic forces. FoundationT Text(1) F F Foundation type (e.g., slab, pile). Appendix F: Hazus-MH Data Dictionary F-165 ype This field is found in the table for future extensibility of the EQ Model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-166 F.6.3.27 Railway Bridges Feature Class: hzRailwayBridge Identification: hzRailwayBridge Type: ESRI Point Feature Class Purpose Belongs to TRN.mdb. Provides the geometry of railway bridges. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzRailwayBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-167 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwayBrid Text(8) T, U, T, UC Unique identifier for each record. geId A It relates this hzRailwayBridge feature class with the associated eqRailwayBridge table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. BridgeClass Text(5) T, NU, A T, UC See Appendix B, Table B.7. Indicates bridge classification. It is used by Hazus-MH to identify the appropriate damage curve to assess the loss estimations produced by the EQ Model Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Owner Text(25) F F Facility owner name BridgeType Text(8) F F Structural types based on the FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Bridge width (in meters) NumSpans Short(1) Byte(1) F F Number of spans Hazus-MH User’s Manual F-168 Length Long(4) Long Integer(4) F F Bridge length (in meters) MaxSpanLen gth Double(8) Double(8) F F Maximum span length (in meters) SkewAngle Double(8) Double(8) F F Skew angle in degrees SeatLength Double(8) Double(8) F F Seat length (in meters) SeatWidth Double(8) Double(8) F F Seat width (in meters) YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year built YearRemode led Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year remodeled PierType Text(10) F F Pier type based on FHWA classification scheme in the source database FoundationT ype Text(1) F F Foundation type based on FHWA classification scheme in the source database ScourIndex Text(1) F F This field is significant to flood analysis and is the second part of the bridge specific occupancy in the bridge damage function tables4. This field is not used in the EQ or HU Model calculations If the bridge is considered inundated then, the scour index is checked. If the scour index is in (4, 5, 6, 7, 8, 9, T, N) then no analysis is performed as the engineering study has determined that the bridge will not be subjected to scour. If the scour index is in (U, 1, 2, 3) then an analysis must be performed. Appendix F: Hazus-MH Data Dictionary F-169 Traffic Long(4) Long Integer(4) F F Average daily traffic (trains/day) TrafficIndex Text(2) F F Traffic index Condition Text(3) F F General condition rating based on the FHWA classification scheme in the source database Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-170 F.6.3.28 Earthquake Specific Railway Bridge Table: eqRailwayBridge Identification: eqRailwayBridge Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of railway bridges. During the creation of a study region, the table content is transferred to a table with the same name (eqRailwayBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqRailwayBridge for each record in hzRailwayBridge with same RailwayBridgeId unique identifier. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-171 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwayBrid geId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqRailwayBridge feature class with the associated hz in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. Hazus-MH User’s Manual F-172 * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-173 F.6.3.29 Flood Specific Railway Bridge Table: flRailwayBridge Identification: flRailwayBridge Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Flood Model specific information of railway bridges. During the creation of a study region, the table content is transferred to a table with the same name (flRailwayBridge) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flRailwayBridge for each record in hzRailwayBridge with same RailwayBridgeId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwayBrid Text(8) T, U, T, UC Unique identifier for each record. geId A It relates this flRailwayBridge feature class with the associated hzRailwayBridge in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. Elevation Double(8) Double(8) F F Elevation of bridge deck * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-174 F.6.3.30 Railway Tracks Feature Class: hzRailwaySegment Identification: hzRailwaySegment Type: ESRI Line Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of railway tracks. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzRailwaySegment) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-175 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwaySegId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzRailwaySegment feature class with the associated eqRailwaySegment table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SegmentClass Text(5) T, NU, A T, UC See Appendix B, Table B.7. Indicates highway road classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model CountyFips Text(5) T, NU, A T Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. Name Text(40) F F Track segment name Owner Text(25) F F Track segment owner Length Short(2) Integer(2) F F Section length (in kms) NumTracks Short(1) Byte(1) F F Number of tracks Traffic Long(4) Long Integer(4) F F Average daily traffic (trains/day) Hazus-MH User’s Manual F-176 Cost Double(8) Currency(8 ) F F Replacement cost (in thousands) Comment Text(40) F F Comments Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-177 F.6.3.31 Earthquake Specific Railway Tracks Table: eqRailwaySegment Identification: eqRailwaySegment Type: ESRI Table Purpose Belongs to TRN.mdb. Provides Earthquake Model specific information of railway tracks. During the creation of a study region, the table content is transferred to a table with the same name (eqRailwaySegment) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqRailwaySegment for each record in hzRailwaySegment with same RailwaySegId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwaySegId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqRailwaySegment feature class with the associated hzRailwaySegment in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999 * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-178 F.6.3.32 Railway Tunnel Feature Class: hzRailwayTunnel Identification: hzRailwayTunnel Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of railway tunnels. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzRailwayTunnel) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-179 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwayTun Text(8) T, U, T, UC Unique identifier for each record. nelId A It relates this hzRailwayTunnel feature class with the associated eqRailwayTunnel table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TunnelClass Text(5) T, NU, A T, UC See Appendix B, Table B.7. Indicates tunnel classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Owner Text(25) F F Facility owner name Type Text(5) F F Structural types based on the FHWA classification scheme in the source database. This field is for informational purposes and has no bearing on the computation of results. Width Double(8) Double(8) F F Bridge width (in meters) Length Long(4) Long F F Bridge length (in meters) Hazus-MH User’s Manual F-180 Integer(4) YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Traffic Long(4) Long Integer(4) F F Average daily traffic (trains/day) Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-181 F.6.3.33 Earthquake Specific Railway Tunnel Table: eqRailwayTunnel Identification: eqRailwayTunnel Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of railway tunnels. During the creation of a study region, the table content is transferred to a table with the same name (eqRailwayTunnel) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqRailwayTunnel for each record in hzRailwayTunnel with same RailwayTunnelId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-182 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RailwayTun nelId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqRailwayTunnel feature class with the associated hzRailwayTunnel in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999 SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Appendix F: Hazus-MH Data Dictionary F-183 LC=Lowercase Hazus-MH User’s Manual F-184 F.6.3.34 Airport Runways Feature Class: hzRunway Identification: hzRunway Type: ESRI Point Feature Class Purpose: Belongs to TRN.mdb. Provides the geometry of airport runways location. There are one or more runway records for each record in hzAirportFlty feature class. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named TRN.mdb in the Region folder. Field information is transferred to a table with the same name (hzRunway) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-185 Name ESRI Type (Size) Access Type (Size) Inde x* Requir ed* Values Description RunwayId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzRunway feature class with the associated eqRunway table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. TranspFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.12. Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Name of runway AirportId Text(8 F F The AirportId value in hzAirportFlty feature class to what the record is related RunwayLength Double(8) Double(8) F F Runway length (in meters) Cost Double(8) Currency( 8) F F Replacement cost (in thousands) Capacity Long(4) Long F F Capacity (flights/day) Hazus-MH User’s Manual F-186 Integer(4) Pavement Text(10) F F Pavement type Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-187 F.6.3.35 Earthquake Specific Airports Runway Table: eqRunway Identification: eqRunway Type: ESRI Table Purpose: Belongs to TRN.mdb. Provides Earthquake Model specific information of airports. During the creation of a study region, the table content is transferred to a table with the same name (eqRunway) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqRunway for each record in hzRunway with same RunwayId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-188 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description RunwayId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqRunway feature class with the associated hzRunway in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Appendix F: Hazus-MH Data Dictionary F-189 LC=Lowercase F.7 Lifeline Utility Systems: UTIL.mdb F.7.1 Database Overview The UTIL.mdb is an Access personal geodatabase that contains feature classes for lifeline utility systems with fields relevant for all hazards; it also contains tables with information specific to the Earthquake and Flood Models. Lifeline utility systems include potable water, wastewater, oil, natural gas, electric power, and communication systems. The geographical domain of the database is the state. In that case, there is one UTIL.mdb database for each state, each located in the appropriate State folder. The current version of the Flood Model does not provide damage or loss estimates for communication systems. During the creation of a study region, for all hazards, utility systems geometries from feature classes are transferred to a geodatabase named UTIL.mdb in the Region folder. Feature classes are named with the prefix hz, meaning they are relevant across all Hazus- MH Models. Potable water facilities, for instance, are stored in the hzPotableWaterFlty feature class with fields containing information common to all hazards, such as name and address. This information is transferred to a table with the same name (for potable water facilities, hzPotableWaterFlty) in the SQL Server database in the Region folder. Hazard specific tables are named with the prefix eq (earthquake) and fl (flood): eqPotableWaterFlty and flPotableWaterFlty. The information is transferred to tables with the same name in the SQL Server database in the Region folder. There is a one-to-one relationship between hz tables and the corresponding eq and fl tables through a unique identifier. F.7.2 Identification UTIL.mdb Hazus-MH User’s Manual F-190 F.7.3 Database Content The UTIL.mdb database includes: Name Type Content hzCommunicationFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of communication related facilities. A communication facilities system consists of central offices, stations, and transmitters hzElectricPowerFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of electric power facilities. An electric power facilities system consists of substations, distribution circuits, generation plants, and transmission towers. hzNaturalGasFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of natural gas compressor stations hzNaturalGasPl ESRI Line Feature Class Geometry (line features) and all-hazards information of natural gas pipelines hzOilFlty ESRI Point Feature Class Geometry (point features) and all-hazards information for oil system facilities including refineries, pumping plants, and tank farms hzOilPl ESRI Line Feature Class Geometry (line features) and all-hazards information of oil pipelines hzPotableWaterFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of potable water facilities including water treatment plants, wells, storage tanks, and pumping stations hzPotableWaterPl ESRI Line Feature Class Geometry (line features) and all-hazards information of potable water pipelines hzWasteWaterFlty ESRI Point Feature Class Geometry (point features) and all-hazards information of wastewater facilities including wastewater treatment plants and lift stations hzWasteWaterPl ESRI Line Feature Class Geometry (line features) and all-hazards information of wastewater pipelines eqCommunicationFlty ESRI Table Earthquake specific information for communication related facilities eqElectricPowerFlty ESRI Table Earthquake specific information for electric power facilities eqNaturalGasDL ESRI Table Earthquake specific information for natural gas distribution pipelines by census tract eqNaturalGasFlty ESRI Table Earthquake specific information for natural gas facilities eqNaturalGasPl ESRI Table Earthquake specific information for natural gas pipelines eqOilFlty ESRI Table Earthquake specific information for oil facilities eqOilPl ESRI Table Earthquake specific information for airport oil pipelines eqPotableWaterDL ESRI Table Earthquake specific information for potable water distribution pipelines by census tract eqPotableWaterFlty ESRI Table Earthquake specific information for potable water facilities eqPotableWaterPl ESRI Table Earthquake specific information for potable water pipelines eqWasteWaterDL ESRI Table Earthquake specific information for wastewater distribution pipelines by census tract eqWasteWaterFlty ESRI Table Earthquake specific information for wastewater facilities eqWasteWaterPl ESRI Table Earthquake specific information for wastewater pipelines flElectricPowerFlty ESRI Table Flood specific information for electric power facilities flExposureUtil ESRI Table Flood specific table (not used and not required) flNaturalGasFlty ESRI Table Flood specific information natural gas facilities flNaturalGasPl ESRI Table Flood specific information for natural gas pipelines flOilFlty ESRI Table Flood specific information for oil facilities Appendix F: Hazus-MH Data Dictionary F-191 flOilPl ESRI Table Flood specific information for oil pipelines flPotableWaterFlty ESRI Table Flood specific information for potable water facilities flPotableWaterPl ESRI Table Flood specific information for potable water pipelines flWasteWaterFlty ESRI Table Flood specific information for wastewater facilities flWasteWaterPl ESRI Table Flood specific information for wastewater pipelines Hazus-MH User’s Manual F-192 F.7.3.1 Communication Facilities Feature Class: hzCommunicationFlty Identification: hzCommunicationFlty Type: ESRI Point Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of communication facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzCommunicationFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-193 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Communicatio nFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzCommunicationFlty feature class with the associated eqCommunicationFlty table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.18. Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact name PhoneNumber Text(14) F F Facility contact phone number Use Text(10) F F Use Hazus-MH User’s Manual F-194 YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-195 F.7.3.2 Earthquake Specific Communication Facilities Table: eqCommunicationFlty Identification: eqCommunicationFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of communication facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqCommunicationFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqCommunicationFlty for each record in hzCommunicationFlty with same CommunicationFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Communication FltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqCommunicationFlty feature class with the associated hzCommunicationFlty in a one- to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model Hazus-MH User’s Manual F-196 building types. DesignLevel Text(2) F T, UC HC = High-Code Building codes in effect in the MC = Moderate-area. See Earthquake Technical Code Manual, Chapters 3 and 5, for LC = Low-Code PC = Pre-Code detailed information about design levels. HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based upon shear wave velocity. See Appendix B, Table B.1, for details. Anchor Short(1) F F 0 = No Indicates whether the facility is Yes/No(1) 1 = Yes anchored to provide additional resistance to seismic forces. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the Earthquake Model, but does not need to be populated at this time. LqfSusCat Short(1) F F Null or 0 to 5 Indicates liquefaction Byte(1) susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Appendix F: Hazus-MH Data Dictionary F-197 Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-198 F.7.3.3 Electric Power Facilities Feature Class: hzElectricPowerFlty Identification: hzElectricPowerFlty Type: ESRI Point Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of electric power facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzElectricPowerFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description ElectricPowerF ltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzElectricPowerFlty feature class with the associated eqElectricPowerFlty and flElectricPowerFlty tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.17. Indicates the facility classification. It is used by Hazus-MH to identify the appropriate damage curve to assess loss estimations produced by the EQ Model. Tract Text(11) T, NU, T 11 digits of the Census tract 2000 US Census tract number Appendix F: Hazus-MH Data Dictionary F-199 A number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact person PhoneNumber Text(14) F F Facility contact phone number Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Capacity Long(4) Long Integer(4) F F Volts/Watts Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-200 F.7.3.4 Earthquake Specific Electric Power Facilities Table: eqElectricPowerFlty Identification: eqElectricPowerFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of electric power facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqElectricPowerFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqElectricPowerFlty for each record in hzElectricPowerFlty with same ElectricPowerFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description ElectricPowerFlt yId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqElectricPowerFlty feature class with the associated hzElectricPowerFlty in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. Appendix F: Hazus-MH Data Dictionary F-201 DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether facility is anchored to provide additional resistance to seismic forces. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based upon shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Hazus-MH User’s Manual F-202 Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) N F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-203 F.7.3.5 Flood Specific Electric Power Facilities Table: flElectricPowerFlty Identification: flElectricPowerFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of electric power facilities. During the creation of a study region, the table content is transferred to a table with the same name (flElectricPowerFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flElectricPowerFlty for each record in hzElectricPowerFlty with same ElectricPowerFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description ElectricPowerFlt yId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flElectricPowerFlty feature class with the associated hzElectricPowerFlty in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilIndicator Short(2) Integer(2) F F Utility Indicator. This field is not used in the current version (MR3) of Hazus-MH. FoundationType Text(1) F F Foundation type (e.g., slab, pile) EquipmentHt Double(8) Currency(8) F F Average height of electrical equipment (measured in feet from the floor) FloodProtection Short(2) F F Flood return period (in years) for Hazus-MH User’s Manual F-204 Integer(2) which the structure is protected UtilDamageFnId Text(10) F F Originally intended to allow users to define facility specific damage curves. Utility damage functions are not used in version MR3 of Hazus. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-205 F.7.3.6 Natural Gas Facilities Feature Class: hzNaturalGasFlty Identification: hzNaturalGasFlty Type: ESRI Point Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of natural gas facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzNaturalGasFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description NaturalGasFlty Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzNaturalGasFlty feature class with the associated eqNaturalGasFlty and flNaturalGasFlty tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.16. This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing the loss estimations produced by the EQ Model. Tract Text(11) T, NU, T 11 digits of the Census tract 2000 US Census tract number Hazus-MH User’s Manual F-206 A number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Name of the facility owner Contact Text(40) F F Name of contact person for the facility PhoneNumber Text(14) F F Phone number to contact the facility Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year the structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power Capacity Float(4) Single(4) F F Millions of cubic feet per day Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude Decimal Degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-207 F.7.3.7 Earthquake Specific Natural Gas Facilities Table: eqNaturalGasFlty Identification: eqNaturalGasFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of natural gas facilities. During the creation of a study region, the content of the table is transferred to a table with the same name (eqNaturalGasFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqNaturalGasFlty for each record in hzNaturalGasFlty with same NaturalGasFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description NaturalGasFlty Text(8) T, U, T, UC Unique identifier for each record. Id A It relates this eqNaturalGasFlty feature class with the associated hzNaturalGasFlty in a one-to-one relationship. The standard format adopted by HAZUS is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2 for the complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for Hazus-MH User’s Manual F-208 Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code detailed information about design levels. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether the facility is anchored to provide additional resistance to seismic forces. FoundationTyp e Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the EQ Model, but does not need to be populated at this time. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. Appendix F: Hazus-MH Data Dictionary F-209 WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-210 F.7.3.8 Flood Specific Natural Gas Facilities Table: flNaturalGasFlty Identification: flNaturalGasFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of natural gas facilities. During the creation of a study region, the table content is transferred to a table with the same name (flNaturalGasFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flNaturalGasFlty for each record in hzNaturalGasFlty with same NaturalGasFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description NaturalGasFltyI d Text(8) T, U, A T, UC Unique identifier for each record. It relates this flNaturalGasFlty feature class with the associated hzNaturalGasFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilIndicator Short(2) Integer(2) F F Utility Indicator. This field is not used in the current version MR3 of Hazus-MH. FoundationType Text(1) F F Foundation type (e.g., slab, pile) EquipmentHt Double(8) Currency(8) F F Average height of electrical equipment (measured in feet from the floor) FloodProtection Short(2) Integer(2) F F Flood return period (in years) for which the structure is protected. Appendix F: Hazus-MH Data Dictionary F-211 UtilDamageFnId Text(10) F F Originally intended to allow users to define facility specific damage curves. Utility damage functions are not used in version MR3 of Hazus-MH. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-212 F.7.3.9 Natural Gas Pipelines Feature Class: hzNaturalGasPl Identification: hzNaturalGasPl Type: ESRI Line Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of natural gas pipelines. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzNaturalGasPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type(Size) Index * Require d* Values Description NaturalGasPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzNaturalGasPl feature class with the associated eqNaturalGasPl and flNaturalGasPl tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. PipelinesClass Text(5) T, NU, A T, UC See Appendix B, Table B.16. This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve to assess the loss estimations produced by the EQ Model. CountyFips Text(5) T, NU, A T Five digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three are digits the county code. Appendix F: Hazus-MH Data Dictionary F-213 Name Text(40) F F Facility name Owner Text(25) F F Facility owner Material Text(10) F F Material type Diameter Double(8) Currency(8) F F Diameter (in inches) PipeLength Float(4) Single(4) F F Length of the segment (in kms) Joint Text(10) F F Join type YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year the structure was built Cost Double(8) Currency(8) F F Replacement cost (in thousands) SourceId Long(4) Long Integer(4) F F Identification of the source Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-214 F.7.3.10 Earthquake Specific Natural Gas Pipeline Table: eqNaturalGasPl Identification: eqNaturalGasPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of natural gas pipelines. It includes the unique id (NaturalGasPlId) for each record in hzNaturalGasPl. During the creation of a study region, the table content is transferred to a table with the same name (eqNaturalGasPl) in the SQL Server database in the Region folder. The SQL server table includes additional fields that are populated subsequently. There must be one record in eqNaturalGasPl for each record in hzNaturalGasPl with same NaturalGasPLId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description NaturalGasPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqNaturalGasPl feature class with the associated hzNaturalGasPl in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-215 F.7.3.11 Flood Specific Natural Gas Pipeline Table: flNaturalGasPl Identification: flNaturalGasPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of natural gas pipelines. During the creation of a study region, the table content is transferred to another table with the same name (flNaturalGasPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flNaturalGasPl for each record in hzNaturalGasPl with same NaturalGasPlId unique identifier. Data: Feature Class Field Definition Name ESRI Type(Size) Access Type(Size) Index * Require d* Values Description NaturalGasPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flNaturalGasPl feature class with the associated hzNaturalGasPl in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SystemId Text(5) F F Utility indicator. This field is not used in the current version MR3 of Hazus-MH. VulnbltyToSco ur Text(10) F F Vulnerability to scour. Field for future development. IDUpperJuncti on Short(2) Integer(2) F F Field for future development IDLowerJuncti Short(2) F F Field for future development Hazus-MH User’s Manual F-216 on Integer(2) DamageFnId Text(10) F F Field for future development * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-217 F.7.3.12 Oil Facilities Feature Class: hzOilFlty Identification: hzOilFlty Type: ESRI Point Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of Oil facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzOilFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type(Size) Index * Require d* Values Description OilFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzOilFlty feature class with the associated eqOilFlty and flOilFlty tables. The standard format adopted by Hazus is SSxxxxxx where SS is the state name abbreviation (upper case) and xxxxxx, is a sequential number from 000001 to 999999. UtilFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.15. This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Hazus-MH User’s Manual F-218 Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact PhoneNumber Text(14) F F Facility phone number Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year the structure was built Cost Double(8) Currency(8) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power Capacity Float(4) Single(4) F F Thousands of barrels per day Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-219 F.7.3.13 Earthquake Specific Oil Facilities Table: eqOilFlty Identification: eqOilFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of oil facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqOilFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqOilFlty for each record in hzOilFlty with same OilFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description OilFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqOilFlty feature class with the associated hzOilFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for the complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Building codes in effect in the area. See Earthquake Technical Hazus-MH User’s Manual F-220 Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code Manual, Chapters 3 and 5, for detailed information about design levels. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether the facility is anchored to provide additional resistance to seismic forces. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, Table B-1 National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based upon shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. Appendix F: Hazus-MH Data Dictionary F-221 WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-222 F.7.3.14 Flood Specific Oil Facilities Table: flOilFlty Identification: flOilFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of oil facilities. During the creation of a study region, the table content is transferred to a table with the same name (flOilFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flOilFlty for each record in hzOilFlty with same OilFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description OilFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flOilFlty feature class with the associated hzOilFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilIndicator Short(2) Integer(2) F F Utility indicator. This field is not used in the current version MR3 of Hazus-MH. FoundationType Text(1) F F Foundation type (e.g., slab, pile) EquipmentHt Double(8) Currency(8) F F Average height of electrical equipment (measured in feet from the floor) FloodProtection Short(2) Integer(2) F F Flood return period (in years) for which the structure is protected. Appendix F: Hazus-MH Data Dictionary F-223 UtilDamageFnId Text(10) F F Originally intended to allow users to define facility specific damage curves. Utility damage functions are not used in version MR3 of Hazus-MH NumStories Short(2) Integer(2) F F Number of stories * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-224 F.7.3.15 Oil Pipelines Feature Class: hzOilPl Identification: hzOilPl Type: ESRI Line Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of oil pipelines. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzOilPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description OilPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzOilPl feature class with the associated eqOilPl and flOilPl tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. PipelinesClass Text(5) T, NU, A T, UC See Appendix B, Table B 15. This field is used to indicate the facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. CountyFips Text(5) T, NU, A YT Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. Appendix F: Hazus-MH Data Dictionary F-225 Name Text(40) F F Facility name Owner Text(25) F F Facility owner name Material Text(10) F F Material type Diameter Double(8) Currency(8) F F Diameter (in inches) PipeLength Float(4) Single(4) F F Length of the segment (in kms) Joint Text(10) F F Join type YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Cost Double(8) Currency(8) F F Replacement cost (in thousands) SourceId Long(4) Long Integer(4) F F Identification of the source Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-226 F.7.3.16 Earthquake Specific Oil Pipeline Table: eqOilPl Identification: eqOilPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of oil pipelines. It includes the unique id (OilPlId) for each record in hzOilPl. During the creation of a study region, the content of the table is transferred to a table with the same name (eqOilPl) in the SQL Server database in the Region folder. The SQL server table includes additional fields that are populated subsequently. There must be one record in eqOilPl for each record in hzOilPl with same OilPLId unique identifier Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description OilPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqOilPl feature class with the associated hzOilPl in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-227 F.7.3.17 Flood Specific Oil Pipeline Table: flOilPl Identification: flOilPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of oil pipelines. During the creation of a study region, the table content is transferred to a table with the same name (flOilPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flOilPl for each record in hzOilPl with same OilPlId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description OilPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flOilPl feature class with the associated hzOilPl in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. SystemId Text(5) F F Utility indicator. This field is not used in the current version (MR3) of Hazus-MH. VulnbltyToScour Text(10) F F Vulnerability to scour. Field for future development. IDUpperJunction Short(2) Integer(2) F F Field for future development Hazus-MH User’s Manual F-228 IDLowerJunction Short(2) Integer(2) F F Field for future development DamageFnId Text(10) F F Field for future development * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-229 F.7.3.18 Potable Water Facilities Feature Class: hzPotableWaterFlty Identification: hzPotableWaterFlty Type: ESRI Point Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of potable water facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzPotableWaterFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PotableWaterFl tyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzPotableWaterFlty feature class with the associated eqPotableWaterFlty and flPotableWaterFlty tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.1.3 Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Hazus-MH User’s Manual F-230 Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact person PhoneNumber Text(14) F F Facility contact phone number Use Text(10) F F Use YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) Byte(1) F F Number of stories Cost Double(8) Currency(8) F F Replacement cost (in thousands) SystemId Text(5) F F Identifier for potable water system. GClass Text(1) F F For network analysis. Hazus-MH does not include a tool to analyze potable water networks such as POWSAN included in Hazus 99. BackupPower Short(1) Yes/No(1) F F 0=No 1=Yes Availability of backup power YearUpgraded Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year the structure was upgraded Capacity Long(4) Long Integer(4) F F Capacity (million gallons/day) Demand Float(4) Single(4) F F Demand (million gallons/day) Latitude Double(8) F F Latitude decimal Latitude Appendix F: Hazus-MH Data Dictionary F-231 Double(8) degrees Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-232 F.7.3.19 Earthquake Specific Potable Water Facilities Table: eqPotableWaterFlty Identification: eqPotableWaterFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of potable water facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqPotableWaterFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqPotableWaterFlty for each record in hzPotableWaterFlty with same PotableWaterFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PotableWaterFlt yId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqPotableWaterFlty feature class with the associated hzPotableWaterFlty in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999 eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Building codes in effect in the area. See Earthquake Technical Appendix F: Hazus-MH Data Dictionary F-233 Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code Manual, Chapters 3 and 5, for detailed information about design levels. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether the facility is anchored to provide additional resistance to seismic forces. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for Hazus-MH User’s Manual F-234 liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-235 F.7.3.20 Flood Specific Potable Water Facilities Table: flPotableWaterFlty Identification: flPotableWaterFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of potable water facilities. During the creation of a study region, the table content is transferred to a table with the same name (flPotableWaterFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flPotableWaterFlty for each record in hzPotableWaterFlty with same PotableWaterFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PotableWaterFlt yId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flPotableWaterFlty feature class with the associated hzPotableWaterFlty in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilIndicator Short(2) Integer(2) F F Utility indicator. This field is not used in the current version MR3 of Hazus-MH. FoundationType Text(1) F F Foundation type (e.g., slab, pile) EquipmentHt Double(8) Currency(8) F F Average height of electrical equipment (measured in feet from the floor). Hazus-MH User’s Manual F-236 FloodProtection Short(2) Integer(2) F F Flood return period (in years) for which the structure is protected. UtilDamageFnId Text(10) F F Originally intended to allow users to define facility specific damage curves. Utility damage functions are not used in version MR3 of Hazus-MH. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-237 F.7.3.21 Potable Water Pipelines Feature Class: hzPotableWaterPl Identification: hzPotableWaterPl Type: ESRI Line Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of potable water pipelines. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzPotableWaterPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PotableWaterPl Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzPotableWaterPl feature class with the associated eqPotableWaterPl and flPotableWaterPl tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. PipelinesClass Text(5) T, NU, A T, UC See Appendix B, Table B.13. Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ model. CountyFips Text(5) T, NU, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits Hazus-MH User’s Manual F-238 are the county code. Name Text(40) F F Facility name Owner Text(25) F F Facility owner Material Text(10) F F Material type Diameter Double(8) Currency(8) F F Diameter (in inches) PipeLength Float(4) Single(4) F F Length of the segment (in kms) Joint Text(10) F F Join type YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Cost Double(8) Currency(8) F F Replacement cost (in thousands) SourceId Long(4) Long Integer(4) F F Identification of the source Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-239 F.7.3.22 Earthquake Specific Potable Water Pipeline Table: eqPotableWaterPl Identification: eqPotableWaterPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of potable water pipelines. It includes the unique id (PotableWaterPlId) for each record in hzPotableWaterPl. During the creation of a study region, the table content is transferred to a table with the same name (eqPotableWaterPl) in the SQL Server database in the Region folder. The SQL server table includes additional fields that are populated subsequently. There must be one record in eqPotableWaterPl for each record in hzPotableWaterPl with same PotableWaterPLId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PotableWaterPl Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqPotableWaterPl feature class with the associated hzPotableWaterPl in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. GClass Text(1) F F For network analysis ** Status Double(8) Currency(8) F F For network analysis ** UpNode Text(5) F F For network analysis ** DownNode Text(5) F F For network analysis ** Roughness Double(8) F F For network analysis ** Hazus-MH User’s Manual F-240 Currency(8) MinLoss Double(8) Currency(8) F F For network analysis ** * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase ** Hazus-MH does not include a tool for analyzing potable water networks such as POWSAN (Potable Water System Analysis Model) included in Hazus 99. Appendix F: Hazus-MH Data Dictionary F-241 F.7.3.23 Flood Specific Potable Water Pipeline Table: flPotableWaterPl Identification: flPotableWaterPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of potable water pipelines. During the creation of a study region, the table content is transferred to a table with the same name (flPotableWaterPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flPotableWaterPl for each record in hzPotableWaterPl with same PotableWaterPlId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PotableWaterPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flPotableWaterPl feature class with the associated hzPotableWaterPl in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. SystemId Text(5) F F Utility indicator. This field is not used in the current version MR3 of Hazus-MH VulnbltyToScour Text(10) F F Vulnerability to scour. Field for future development. IDUpperJunction Short(2) Integer(2) F F Field for future development Hazus-MH User’s Manual F-242 IDLowerJunction Short(2) Integer(2) F F Field for future development DamageFnId Text(10) F F Field for future development * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-243 F.7.3.24 Potable Water Distribution Pipes Table: eqPotableWaterDL Identification: eqPotableWaterDL Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides total length of potable water distribution pipelines aggregated by census tract. Only the Earthquake Model estimates damage, losses and functionality for the pipeline components of the potable water system. During the creation of a study region, the content of the table is transferred to a table with the same name (eqPotableWaterDL) in the SQL Server database in the Region folder. The SQL server table includes additional fields that are populated subsequently. There must be one record in eqPotableWaterDL for each record in hzTract feature class in the State syBoundary.mdb. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Tract Text(11) T, U, A T, UC 11 digits of the 2000 US Census tract number DuctilePipe Float(4) Single(4) F F Total length of ductile distribution pipes (in kms) BrittlePipe Float(4) Single(4) F F Total length of brittle distribution pipes (in kms) TotalPipe Float(4) Single(4) F F Total length of distribution pipes (in kms) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-244 F.7.3.25 Waste Water Facilities Feature Class: hzWasteWaterFlty Identification: hzWasteWaterFlty Type: ESRI Point Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of wastewater facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzWasteWaterFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description WasteWaterFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzWasteWaterFlty feature class with the associated eqWasteWaterFlty and flWasteWaterFlty tables. The standard format adopted by Hazus is SSxxxxxx where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilFcltyClass Text(5) T, NU, A T, UC See Appendix B, Table B.14. Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. Tract Text(11) T, NU, T 11 digits of the Census tract 2000 US Census tract number Appendix F: Hazus-MH Data Dictionary F-245 A number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact name PhoneNumber Text(14) F F Facility phone number YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built Use Text(10) F F Use Cost Double(8 ) Currency(8) F F Replacement cost (in thousands) BackupPower Short(1) Yes/No(1) F F 0 = No 1 = Yes Availability of backup power Capacity Long(4) Long Integer(4) F F Capacity (million gallons/day) GClass Text(1) F F For network analysis. Hazus-MH does not include a tool to analyze water networks such as POWSAN included in Hazus 99. NumStories Short(1) Byte(1) F F Number of stories SystemId Text(5) F F Identifier for the waste water system YearUpgraded Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was upgraded Hazus-MH User’s Manual F-246 Demand Float(4) Single(4) F F Demand (million gallons/day) Latitude Double(8 ) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8 ) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-247 F.7.3.26 Earthquake Specific Waste Water Facilities Table: eqWasteWaterFlty Identification: eqWasteWaterFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of waste water facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqWasteWaterFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqWasteWaterFlty for each record in hzWasteWaterFlty with same WasteWaterFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description WasteWaterFlty Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqWasteWaterFlty feature class with the associated hzWasteWaterFlty in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B-2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. Hazus-MH User’s Manual F-248 DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. Anchor Short(1) Yes/No(1) F F 0 = No 1 = Yes Indicates whether the facility is anchored to provide additional resistance to seismic forces. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, table B.1 National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based upon shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual Appendix F: Hazus-MH Data Dictionary F-249 (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-250 F.7.3.27 Flood Specific Waste Water Facilities Table: flWasteWaterFlty Identification: flWasteWaterFlty Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of waste water facilities. During the creation of a study region, the table content is transferred to a table with the same name (flWasteWaterFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus- MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flWasteWaterFlty for each record in hzWasteWaterFlty with same WasteWaterFltyId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description WasteWaterFlty Id Text(8) T, U, A T, UC Unique identifier for each record. It relates this flWasteWaterFlty feature class with the associated hzWasteWaterFlty in a one-toone relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. UtilIndicator Short(2) Integer(2) F F Utility indicator. This field is not used in the current version MR3 of Hazus-MH. FoundationType Text(1) F F Foundation type (e.g., slab, pile) EquipmentHt Double(8) Currency(8) F F Average height of electrical equipment (measured in feet from the floor) FloodProtection Short(2) F F Flood return period (in years) for Appendix F: Hazus-MH Data Dictionary F-251 Integer(2) which the structure is protected UtilDamageFnId Text(10) F F Originally intended to allow users to define facility specific damage curves. Utility damage functions are not used in version MR3 of Hazus-MH. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-252 F.7.3.28 Waste Water Pipelines Feature Class: hzWasteWaterPl Identification: hzWasteWaterPl Type: ESRI Line Feature Class Purpose: Belongs to UTIL.mdb. Provides the geometry of waste water pipelines. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named UTIL.mdb in the Region folder. Field information is transferred to a table with the same name (hzWasteWaterPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH estimation of hazards, damages, and loss of functionality, as well as mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description WasteWaterPlId Text(8) T, U,A T, UC Unique identifier for each record. It relates this hzWasteWaterPl feature class with the associated eqWasteWaterPl and flWasteWaterPl tables. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. PipelinesClass Text(5) T, NU, A T, UC See Appendix B, Table B.14. Indicates facility classification. It is used by Hazus-MH to identify the appropriate damage curve for assessing loss estimations produced by the EQ Model. CountyFips Text(5) T, NU, A T Five-digit FIPS county code Five-digit FIPS County code. First two digits are the state FIPS; the remaining three digits Appendix F: Hazus-MH Data Dictionary F-253 the county code. Name Text(40) F F Facility name Owner Text(25) F F Facility owner Material Text(10) F F Material type Diameter Double(8) Currency(8) F F Diameter (in inches) PipeLength Float(4) Single(4) F F Length of the segment (in kms) Joint Text(10) F F Join type YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year the structure was built Cost Double(8) Currency(8) F F Replacement cost (in thousands) SourceId Long(4) Long Integer(4) F F Identification of the source Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-254 F.7.3.29 Earthquake Specific Waste Water Pipeline Table: eqWasteWaterPl Identification: eqWasteWaterPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Earthquake Model specific information of waste water pipelines. It includes a unique id (WasteWaterPlId) for each record in hzWasteWaterPl. During the creation of a study region, the table content is transferred to a table with the same name (eqWasteWaterPl) in the SQL Server database in the Region folder. The SQL server table includes additional fields that are populated subsequently. There must be one record in eqWasteWaterPl for each record in hzWasteWaterPl with same WasteWaterPLId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type Size) Index * Require d* Values Description WasteWaterPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqWasteWaterPl feature class with the associated hzWasteWaterPl in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-255 F.7.3.30 Flood Specific Waste Water Pipeline Table: flWasteWaterPl Identification: flWasteWaterPl Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides Flood Model specific information of waste water pipelines. During the creation of a study region, the table content is transferred to a table with the same name (flWasteWaterPl) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH Flood Model estimation of hazards, damages, and loss of functionality. There must be one record in flWasteWaterPl for each record in hzWasteWaterPl with same WasteWaterPlId unique identifier. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type Size) Index * Require d* Values Description WasteWaterPlId Text(8) T, U, A T, UC Unique identifier for each record. It relates this flWasteWaterPl feature class with the associated hzWasteWaterPl in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. SystemId Text(5) F F Utility indicator. This field is not used in the current version MR3 of Hazus-MH VulnbltyToScour Text(10) F F Vulnerability to scour. Field for future development. IDUpperJunction Short(2) Integer(2) F F Field for future development Hazus-MH User’s Manual F-256 IDLowerJunction Short(2) Integer(2) F F Field for future development DamageFnId Text(10) F F Field for future development * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-257 F.7.3.31 Waste Water Distribution Pipes Table: eqWasteWaterDL Identification: eqWasteWaterDL Type: ESRI Table Purpose: Belongs to UTIL.mdb. Provides total length of waste water distribution pipelines aggregated by census tract. Only the Earthquake Model estimates damage, losses and functionality for the pipeline components of the waste water system. During the creation of a study region, the table content is transferred to a table with the same name (eqWasteWaterDL) in the SQL Server database in the Region folder. The SQL server table includes additional fields that are populated subsequently. There must be one record in eqWasteWaterDL for each record in hzTract feature class in the State syBoundary.mdb. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Tract Text(11) T, U, A T, UC 11 digits of the census tract number 11 digits of the census tract number DuctilePipe Float(4) Single(4) F F Total length of ductile distribution pipes (in kms) BrittlePipe Float(4) Single(4) F F Total length of brittle distribution pipes (in kms) TotalPipe Float(4) Single(4) F F Total length of distribution pipes (in kms) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-258 F.8 High Potential Loss Facilities: HPLF.mdb F.8.1 Database Overview HPLF.mdb is an Access personal geodatabase that contains feature classes for HPLF with fields relevant to all hazards and tables with information specific to Earthquake Model. HPLFs are those likely to cause severe loss if damaged. Damage and loss estimation calculations for HPLFs are not performed by Hazus-MH. HPLFs include nuclear power plants, dams, levees, and some military installations. Hazardous material facilities and levees are also included in HPLF.mdb. Hazardous material facilities contain substances that can pose significant hazards because of their toxicity, radioactivity, flammability, explosiveness, or reactivity. Similar to other facilities with high potential loss, Hazus-MH models do not estimate losses caused by hazardous material releases and levee failures based on the inventory data. The geographical domain of the database is the state. In that case, there is one HPLF.mdb database for each state, each located in the appropriate State folder. During the creation of a study region, for all hazards, HPLF geometries from feature classes are transferred to a geodatabase named HPLF.mdb in the Region folder. Feature classes are named with the prefix hz that means that are relevant across all Hazus-MH models. Dams, for instance, are stored in hzDams feature class with fields containing information common to all hazards. This information is transferred to a table with the same name (for dams, hzDams) in the SQL Server database in the Region folder. Hazard specific tables are named with the prefix eq (earthquake) such as eqDams. The information is transferred to tables with the same name in the SQL Server database in the Region folder. There is a one-to-one relationship between hz tables and the corresponding eq table through a unique identifier. F.8.2 Identification HPLF.mdb Appendix F: Hazus-MH Data Dictionary F-259 F.8.3 Database Content The HPLF.mdb database includes: Name Type Content hzDams ESRI Point Feature Class Geometry (point features) and all-hazards information of dams structures hzHazmat ESRI Point Feature Class Geometry (point features) and all-hazards information of hazardous material facilities hzLevees ESRI Line Feature Class Geometry (line features) and all-hazards information of levees hzMilitary ESRI Point Feature Class Geometry (point features) and all-hazards information of military facilities hzNuclearFlty ESRI Line Feature Class Geometry (line features) and all-hazards information for nuclear facilities eqDams ESRI Table Earthquake specific information for dam structures eqHazmat ESRI Table Earthquake specific information for hazardous material facilities eqLevees ESRI Table Earthquake specific information for levees eqMilitary ESRI Table Earthquake specific information for military installations eqNuclearFlty ESRI Table Earthquake specific information for nuclear facilities Hazus-MH User’s Manual F-260 F.8.3.1 Dams Feature Class: hzDams Identification: hzDams Type: ESRI Point Feature Class Purpose: Belongs to HPLF.mdb. Provides the geometry of dam facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named HPLF.mdb in the Region folder. Field information is transferred to a table with the same name (hzDams) in the SQL Server database in the Region folder. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-261 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description DamId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzDams feature class with the associated eqDams table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. DamClass Text(5) T, NU, A T, UC See Appendix B, Table B.5. Indicates facility classification Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name CountyName Text(30) F F County where facility is located Owner Text(25) F F Facility owner Cost Double(8) Currency(8) F F Replacement cost (in thousands) River Text(30) F F Name of river on which dam is located NearCity Text(30) F F Nearest city downstream from dam DistanceCity Float(4) Single(4) F F Distance of nearest city downstream from dam (in miles) Purpose Text(10) F F Purposes for which reservoir is used YearCompl Short(2) F F Null or Year original main dam structure Hazus-MH User’s Manual F-262 Integer(2) (= 1500 and = 2100) was completed DamLength Float(4) Single(4) F F Dam length, in feet (defined as length along top of dam) DamHeight Float(4) Single(4) F F Dam height, in feet (defined as vertical distance between the lowest point on the crest of the dam and the lowest point in the original streambed) StructHeight Float(4) Single(4) F F Structural height of the dam, in feet (defined as the vertical distance from the lowest point of the excavated foundation to the top of the dam) MaxDischarge Float(4) Single(4) F F Maximum storage, in acre-feet (defined as the total storage space in a reservoir below the maximum attainable water surface elevation, including any surcharge storage) HydroHeight Float(4) Single(4) F F Hydraulic height of dam, in feet, (defined as the vertical difference between the maximum design water level and the lowest point in the original streambed) MaxStorage Float(4) Single(4) F F Maximum storage, in acre-feet (defined as the total storage space in a reservoir below the maximum attainable water surface elevation, including any surcharge storage) NormStorage Float(4) F F Normal storage, in acre-feet Single(4) (defined as the total storage space in a reservoir below the normal retention level, including Appendix F: Hazus-MH Data Dictionary F-263 dead and inactive storage and excluding any flood control or surcharge storage) SurfaceArea Float(4) Single(4) F F Surface area, in acres, of the impoundment at its normal retention level DrainArea Float(4) Single(4) F F Drainage area of the dam, in square miles (defined as the area that drains to the reservoir) Hazard Text(1) F F Code indicating the potential hazard to the downstream area resulting from failure or malfunctioning of the dam or facilities: L = Low S = Significant H = High EAP Text(2) F F Code indicating whether the dam has an emergency action plan (EAP) developed by the dam owner. An EAP is defined as a plan of action to be taken to reduce the potential for property damage and loss of life in an area affected by a dam failure or large flood. Y =Yes N = No NR = Not required by submitting agency SpillType Float(4) Single(4) F F Code that describes spillway type: C = Controlled U = Uncontrolled Hazus-MH User’s Manual F-264 N = None Volume Float(4) Single(4) F F Total number of cubic yards occupied by the materials used in the dam structure. Portions of powerhouse, locks, and spillways are included only if they are an integral part of the dam and required for structural stability. NATID Text(7) F F The official National Inventory of Dams identification number for the dam (formerly known as the National ID) PrimaryAgency Text(20) F F Primary source agency from which the data was derived. Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-265 F.8.3.2 Earthquake Specific Dams Table: eqDams Identification: eqDams Type: ESRI Table Purpose: Belongs to HPLF.mdb. Provides Earthquake Model specific information of dams. During the creation of a study region, the table content is transferred to a table with the same name (eqDams) in the SQL Server database in the Region folder. There must be one record in eqDams for each record in hzDams with same DamId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-266 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description DamId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqDams feature class with the associated hzDams in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Appendix F: Hazus-MH Data Dictionary F-267 LC=Lowercase Hazus-MH User’s Manual F-268 F.8.3.3 Hazardous Material Facilities Feature Class: hzHazmat Identification: hzHazmat Type: ESRI Point Feature Class Purpose: Belongs to HPLF.mdb. Provides the geometry of hazardous material facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named HPLF.mdb in the Region folder. Field information is transferred to a table with the same name (hzHazmat) in the SQL Server database in the Region folder. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-269 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HazmatId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hHazmat feature class with the associated eqHazmat table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. HplfClass Text(5) T, NU, A T, UC Indicates facility classification Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Facility address City Text(40) F F City Statea Text(2) F F USPS state abbreviation Zipcode Text(10) F F Zip code; for instance, 30067 or 30067--564 or 300672564 Contact Text(40) F F Facility contact person PhoneNumber Text(14) F F Facility phone number Owner Text(25) F F Facility owner Cas Text(10) F F Chemical Abstract Service (CAS) number for hazardous material ChemicalName Text(20) F F Proper chemical name associated with the CAS number of the Hazus-MH User’s Manual F-270 hazardous material ChemicalQuant Long(4) Long Integer(4) F F Quantity (in pounds) of the chemical at a hazardous materials facility SIC Text(10) F F Standard Industrial Code YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built EPAID Text(2) F F Environmental Protection Agency (EPA) ID PerAmount Float(4) Single(4) F F Amount of chemical (in pounds) allowed by permit. Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-271 F.8.3.4 Earthquake Specific Hazardous Material Facilities Table: eqHazmat Identification: eqHazmat Type: ESRI Table Purpose: Belongs to HPLF.mdb. Provides Earthquake Model specific information of hazardous material facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqHazmat) in the SQL Server database in the Region folder. There must be one record in eqHazmat for each record in hzHazmat with same HazmatId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-272 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description HazmatId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqHazmat feature class with the associated hzHazmat in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) N T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) N T, UC HC = High-Code MC = Moderate -Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code Building codes in effect in the area. See Earthquake Technical Manual, Chapters 3 and 5, for detailed information about design levels. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for future extensibility of the earthquake model, but does not Appendix F: Hazus-MH Data Dictionary F-273 need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-274 F.8.3.5 Levees Feature Class: hzLevees Identification: hzLevees Type: ESRI Line Feature Class Purpose: Belongs to HPLF.mdb. Provides the geometry of levees. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named HPLF.mdb in the Region folder. Field information is transferred to a table with the same name (hzLeveest) in the SQL Server database in the Region folder. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LeveeId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzLevees feature class with the associated eqLevees table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (Upper case) and xxxxxx is a sequential number from 000001 to 999999. CountyFips Text(5) T, NU, A T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-275 F.8.3.6 Earthquake Specific Levees Table: eqLevees Identification: eqLevees Type: ESRI Table Purpose: Belongs to HPLF.mdb. Provides Earthquake Model specific information of levees. During the creation of a study region, the table content is transferred to a table with the same name (eqLevee) in the SQL Server database in the Region folder. There must be one record in eqLevees for each record in hzLevees with same LeveeId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-276 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description LeveeId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqLevee feature class with the associated hzLevee in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; Appendix F: Hazus-MH Data Dictionary F-277 LC=Lowercase Hazus-MH User’s Manual F-278 F.8.3.7 Military Facilities Feature Class: hzMilitary Identification: hzMilitary Type: ESRI Point Feature Class Purpose: Belongs to HPLF.mdb. Provides the geometry of military facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named HPLF.mdb in the Region folder. Field information is transferred to a table with the same name (hzMilitary) in the SQL Server database in the Region folder. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-279 Name ESRI Type (Size) Access Type (Size) In de x* Require d* Values Description MilitaryFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzMilitary feature class with the associated eqMilitary table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. HplfClass Text(5) T, N U, A T, UC See Appendix B, Table B.5. Indicates facility classification Tract Text(11) T, N U, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Facility address City Text(40) F F City Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Statea Text(2) F F USPS state abbreviation Contact Text(40) F F Facility contact person PhoneNumber Text(14) F F Facility phone number NumStories Short(1) Byte(1) F F Number of stories YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = Year structure was built Hazus-MH User’s Manual F-280 2100) Owner Text(25) F F Facility owner name ShelterCapacity Short(2) Integer(2) F F Shelter capacity. For informational purposes only and not used in any Hazus-MH calculations. Total number of persons who can be sheltered in this facility. Use Text(10) F F Facility use BldgCost Double(8) Currency(8) F F Building replacement cost (in thousands) ContentCost Double(8) Currency(8) F F Content replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-281 F.8.3.8 Earthquake Specific Military Table: eqMilitary Identification: eqMilitary Type: ESRI Table Purpose: Belongs to HPLF.mdb. Provides Earthquake Model specific information of military facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqSchool) in the SQL Server database in the Region folder. There must be one record in eqMilitary for each record in hzMilitary with same MilitaryId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-282 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description MilitaryFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this eqMilitary feature class with the associated hzMilitary in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) N T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) N T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High- Code MS = Special Moderate-Code LS = Special Low- Code Building codes in effect in the area. See Earthquake Technical Manual , Chapters 3 and 5, for detailed information about design levels. FoundationType Text(1) F F Foundation type (e.g., slab, pile). This field is in the table for Appendix F: Hazus-MH Data Dictionary F-283 future extensibility of the earthquake model, but does not need to be populated at this time. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-284 F.8.3.9 Nuclear Power Plants Feature Class: hzNuclearFlty Identification: hzNuclearFlty Type: ESRI Point Feature Class Purpose: Belongs to HPLF.mdb. Provides the geometry of nuclear power plant facilities. During the creation of a study region, for all hazards, geometries are transferred to a geodatabase named HPLF.mdb in the Region folder. Field information is transferred to a table with the same name (hzNuclearFlty) in the SQL Server database in the Region folder. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-285 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description NuclearFltyId Text(8) T, U, A T, UC Unique identifier for each record. It relates this hzNuclearFlty feature class with the associated eqNuclearFlty table. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. HplfClass Text(5) T, NU, A T, UC See Appendix B, Table B-5. Indicates facility classification Tract Text(11) T, NU, A T 11 digits of the Census tract number 2000 US Census tract number Name Text(40) F F Facility name Address Text(40) F F Physical address City Text(40) F F City Zipcode Text(10) F F Zip code; for instance, 30067 or 30067-2564 or 300672564 Statea Text(2) F F USPS state abbreviation Owner Text(25) F F Facility owner name Contact Text(40) F F Facility contact person PhoneNumber Text(14) F F Facility phone number YearBuilt Short(2) Integer(2) F F Null or (= 1500 and = 2100) Year structure was built NumStories Short(1) F F Number of stories Hazus-MH User’s Manual F-286 Byte(1) Cost Double(8) Currency(8) F F Replacement cost (in thousands) Latitude Double(8) Double(8) F F Latitude decimal degrees Latitude Longitude Double(8) Double(8) F F Longitude decimal degrees Longitude Capacity Long(4) Long Integer(4) F F Volts/Watts Comment Text(40) F F Comments * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-287 F.8.3.10 Earthquake Specific Nuclear Power Plant Facilities Table: eqNuclearFlty Identification: eqNuclearFlty Type: ESRI Table Purpose: Belongs to HPLF.mdb. Provides Earthquake Model specific information of nuclear power plant facilities. During the creation of a study region, the table content is transferred to a table with the same name (eqNuclearFlty) in the SQL Server database in the Region folder. Data are subsequently used for Hazus-MH EQ Model estimation of hazards, damages, and loss of functionality. There must be one record in eqNuclearFlty for each record in hzNuclearFlty with same NuclearFltyId unique identifier. Data: Feature Class Field Definition Hazus-MH User’s Manual F-288 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description NuclearFltyId Text(8) T, U,A T, UC Unique identifier for each record. It relates this eqNuclearFlty feature class with the associated hzNuclearFlty in a one-to-one relationship. The standard format adopted by Hazus is SSxxxxxx, where SS is the state name abbreviation (upper case) and xxxxxx is a sequential number from 000001 to 999999. eqBldgType Text(4) F T, UC See Appendix B, Table B.2. The building type that will be modeled in Hazus earthquake scenarios. See Appendix B, Table B.2, for complete description of available model building types. DesignLevel Text(2) F T, UC HC = High-Code MC = Moderate- Code LC = Low-Code PC = Pre-Code HS = Special High-Code MS = Special Moderate-Code LS = Special Low-Code Building codes in effect in the area. See Earthquake Technical Manual , Chapters 3 and 5, for detailed information about design levels. SoilType Text(1) F T, UC See Appendix B, Table B.1. National Earthquake Hazard Reduction Program (NEHRP) soil classification that defines the conditions where the structure is Appendix F: Hazus-MH Data Dictionary F-289 located. This is based on shear wave velocity. See Appendix B, Table B.1, for details. LqfSusCat Short(1) Byte(1) F F Null or 0 to 5 Indicates liquefaction susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. LndSusCat Short(1) Byte(1) F F Null or 0 to 10 Indicates landslide susceptibility of the facility location. See Earthquake Technical Manual (Section 4.2, Ground Failure) for liquefaction discussion. WaterDepth Float(4) Single(4) F F Null = 0 Water table depth in feet. Values must be greater than 0. Range: 0 – 300 meters. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase F.9 Agriculture Inventory: flAG.mdb F.9.1 Database Overview flAG.mdb is an Access personal geodatabase that provides information about distributions of crop type, price, and harvest cost of agriculture products. The information is used by the Flood Model to determine the direct physical damage to agriculture. The geographical domain of the database is the state. In that case, there is one flAG.mdb database for each state, each located in the appropriate State folder. flAG.msb contains a feature class (flAgMap) with polygons (defining crop distribution and extent) and a table (flAgricultureInventory ) that provides crop type, units of measurement, unit price, and harvest cost of agriculture products for each polygon. Hazus-MH User’s Manual F-290 During the creation of a flood study region, features from feature class flAgMap are transferred to a geodatabase named flAG.mdb in the Region folder. Data from table flAgricultureInventory are transferred to a table named flAgricultureInventory in the SQL Server database in the Region folder. F.9.2 Identification flAG.mdb F.9.3 Database Content The flAG.mdb database includes: Name Type Content flAgMap ESRI Polygon Feature Class Geometry (polygon features) and information of crops flAgricultureInventory ESRI Table This table provides distributions of crop type, units of measurement, unit price, and harvest cost for agriculture products Appendix F: Hazus-MH Data Dictionary F-291 F.9.3.1 Agriculture Crop Feature Class: flAgMap Identification: flAgMap Type: ESRI Polygon Feature Class Purpose: Belongs to flAG.mdb. Provides the geometry of crop polygons. During the creation of a study region, features are transferred to a geodatabase named flAG.mdb in the Region folder. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description PolygonId Text(25) F T Sub County Polygon ID LUCODE Short(2) Integer(2) F Land use code Name Text(20 F T County name FIPS Text(5) F T Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. ST Text(2) T, NU, A T FIPS state code ST_NAME Text(2) T, NU, A T USPS state abbreviation * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-292 F.9.3.2 Agriculture Inventory Table: flAgricultureInventory Identification: flAgricultureInventory Type: ESRI Table Purpose: Belongs to flAG.mdb. Provides Flood Model with information about agriculture crops. During the creation of a study region, the table content is transferred to a table with the same name (flAgricultureInventory) in the SQL Server database in the Region folder. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CropType Text(50) F T Crop type CountyFIPS Text(5) F T Five-digit FIPS county code Five-digit FIPS county code. First two digits are the state FIPS; the remaining three digits are the county code. PolygonId Text(25) F T Sub county polygon ID AvgAnnualY ield Double(8) Double(8) F F Annual average crop yield Unit Text(10) F F Unit of measurement for crop UnitPrice Double(8) Double(8) F F Price per unit of measurement HarvestCost Double(8) Double(8) F F Cost to harvest crop * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-293 F.10 Vehicles Inventory: flVeh.mdb F.10.1 Database Overview flVeh.mdb is an Access personal geodatabase that provides distributions and costs (replacement value) of vehicles by census block. The information is used by the Flood Model for estimating the dollar cost of flood related damages to motor vehicles due to flood events. The geographical domain of the database is the state. In that case, there is one flVeh.mdb database for each state, each located in the appropriate State folder. flVeh.msb contains two tables: one named flNightVehicleInv that provides nighttime vehicle information and one named flDayVehicleInv that provides daytime vehicle information. During the creation of a flood study region, records from both tables are copied to tables with the same names in the SQL Server database in the Region folder. F.10.2 Identification flVeh.mdb F.10.3 Database Content The flVeh.mdb database includes: Name Type Content flNightVehicleInv ESRI Table This table provides nighttime vehicle information flDayVehicleInv ESRI Table This table provides daytime vehicle information Hazus-MH User’s Manual F-294 F.10.3.1 Nighttime Vehicles Table: flNightVehicleInv Identification: flNightVehicleInv Type: ESRI table Purpose: Belongs to flVeh.mdb. Provides distributions and costs of vehicles at nighttime. During the creation of a study region, records are copied to a table named flNightVehicleInv in the SQL Server database in the Region folder. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-295 Name ESRI Type (Size) Access Type(Size) Ind ex* Require d* Values Description CensusBlock Text(15) N T 15 digits of the Census block number 15 digits of the Census block number TotalVehicle Long(4) Long Integer(4) F F Total vehicles count Cars Long(4) Long Integer(4) F F Total count cars LightTrucks Long(4) Long Integer(4) F F Total count light trucks HeavyTrucks Long(4) Long Integer(4) F F Total count heavy trucks TotalExp Double(8) Double(8) F F Total vehicle exposure TValNewCars Double(8) Double(8) F F Total value new cars TValUsedCars Double(8) Double(8) F F Total value used cars TValNewLightTr ucks Double(8) Double(8) F F Total value new light trucks TValUsedLightTr ucks Double(8) Double(8) F F Total value used light trucks TValNewHeavyT rucks Double(8) Double(8) F F Total value new heavy trucks TValUsedHeavy Double(8) F F Total value used heavy trucks Hazus-MH User’s Manual F-296 Trucks Double(8) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-297 F.10.3.2 Daytime Vehicles Table: flDayVehicleInv Identification: flDayVehicleInv Type: ESRI table Purpose: Belongs to flVeh.mdb. Provides distributions and costs of vehicles at daytime. During the creation of a study region, records are copied to a table named flDayVehicleInv in the SQL Server database in the Region folder. Data: Feature Class Field Definition Hazus-MH User’s Manual F-298 Name ESRI Type (Size) Access Type (Size) Ind ex* Require d* Values Description CensusBlock Text(15) N T 15 digits of the Census block number 15 digits of the 2000 US Census block number TotalVehicle Long(4) Long Integer(4) F F Total vehicles count Cars Long(4) Long Integer(4) F F Total count cars LightTrucks Long(4) Long Integer(4) F F Total count light trucks HeavyTrucks Long(4) Long Integer(4) F F Total count heavy trucks TotalExp Double(8) Double(8) F F Total vehicle exposure TValNewCars Double(8) Double(8) F F Total value new cars TValUsedCars Double(8) Double(8) F F Total value used cars TValNewLightTr ucks Double(8) Double(8) F F Total value new light trucks TValUsedLightTr ucks Double(8) Double(8) F F Total value used light trucks TValNewHeavyT rucks Double(8) Double(8) F F Total value new heavy trucks TValUsedHeavy Double(8) F F Total value used heavy trucks Appendix F: Hazus-MH Data Dictionary F-299 Trucks Double(8) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase F.11 Hurricane Model Database: huTemplateGBS.mdb F.11.1 Database Overview huTemplateGBS.mdb is an Access database that provides Hurricane Model parameter values by census tract. The geographical domain of the database is the state. In that case, there is one huTemplateGBS.mdb database for each state, each located in a folder named hu in the appropriate State folder. huTemplateGBS.mdb has four tables that provide critical Hurricane Model information about hazard and exposure (e.g., terrain condition, tree inventory, wind specific mapping schemes, gust wind speed by return period, distance to coast, etc.) by census tract. During the creation of a flood study region, records from all tables are copied to tables with the same name in the SQL Server database in the Region folder. F.11.2 Identification huTemplateGBS.mdb F.11.3 Database Content The huTemplateGBS.mdb database includes: Hazus-MH User’s Manual F-300 Name Type Content huHazardMapWindSpeed ESRI Table This table provides estimated gust (3-second) wind speed by census tract for different return periods. huTerrain ESRI Table This table provides terrain characterization (surface roughness) by census tract. huTract ESRI Table This table provides Hurricane Model specific mapping scheme name by census tract. Values for parameters distance to coast and wind grid index are included for each census tract. huTreeParameters ESRI Table This table provides tree coverage parameter values by census tract. F.11.3.1 Peak Gust Wind Speed by Return Period Table: huHazardMapWindSpeed Identification: huHazardMapWindSpeed Type: Access Table Purpose: Belongs to huTemplateGBS.mdb. Provides estimated peak gust (3-second) wind speed by census tract for different return periods. Records are transferred to the SQL Server database in the Region folder during the aggregation process. Data are subsequently used for Hazus-MH wind speed mapping Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-301 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Tract Text(11) F T 11 digits of the census tract number 11 digits of the 2000 US Census tract number f10yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 10 years f20yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 20 years f50yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 50 years f100yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 100 years f200yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 200 years f500yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 500 years f1000yr Float(4) Single(4) F F Estimated gust (3-seconds) wind speed to be exceeded only once every 1000 years * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-302 F.11.3.2 Terrain Characterization Table: huTerrain Identification: huTerrain Type: Access Table Purpose: Belongs to huTemplateGBS.mdb. Provides surface roughness values by census tract and wind grid. Records are transferred to the SQL Server database in the Region folder during the aggregation process. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Tract Text(11) F T 11 digits of the census tract number 11 digits of the 2000 US Census tract number SURFACER Float(4) F F Surface roughness value. See OUGHNESS Single(4) Hurricane Model Technical Manual, Chapter 3, Surface Roughness Modeling. SRIndex Float(4) F F Surface roughness index. See Single(4) Hurricane Model Technical Manual, Chapter 3, Surface Roughness Modeling. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-303 F.11.3.3 Tree Characteristics Distribution Table: huTreeParameters Identification: huTreeParameters Type: Access Table Purpose: Belongs to huTemplateGBS.mdb. Provides tree parameters values by census tract. Records are transferred to the SQL Server database in the Region folder during the aggregation process. Data: Feature Class Field Definition Hazus-MH User’s Manual F-304 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description Tract Text(11) N T 11 digits of the census tract number 11 digits of the 2000 US Census tract number PreDomTreeT Text(20) F F Null Predominant tree type: ype Deciduous Coniferous Mixed deciduous, coniferous, mixed StemsPerAcre Long(4) Long Integer(4) F F Number of trees per acre TreeHeightLes s40 Float(4) Single(4) F F Percentage of trees with height less than 40 feet TreeHeight40 To60 Float(4) Single(4) F F Percentage of trees with height 40 feet to 60 feet TreeHeightGre ater60 Float(4) Single(4) F F Percentage of trees with height greater than 60 feet TreeCollection Factor Float(4) Single(4) F F Tree collection factor. A factor to estimate eligible tree debris for collection. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-305 F.11.3.4 Hurricane Model Census Tract Table: huTract Identification: huTract Type: Access Table Purpose: Belongs to huTemplateGBS.mdb. This table provides Hurricane Model specific building and occupancy mapping scheme names by census tract. Values for parameters distance to coast and wind grid index are included for each census tract Records are transferred to the SQL Server database in the Region folder during the aggregation process. Data are subsequently used for Hazus-MH wind speed mapping. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Required * Values Description Tract Text(11) F T 11 digits of the 2000 US Census tract number huBldgSchemeNa me Float(4) Single(4) F T Hurricane Model building scheme name huOccMapSchem eName Float(4) Single(4) F T Hurricane Model occupancy mapping scheme name DistToCoast Float(4) Single(4) F F Distance to coast (in miles) SURFACEROUG HNESS Float(4) Single(4) F F Surface roughness value. See Hurricane Model Technical Manual, Chapter 3, Surface Roughness Modeling. WindGridIndex Float(4) Single(4) F F Wind grid index * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-306 F.12 Occupancy Mapping Scheme: MSH.mdb F.12.1 Database Overview Occupancy mapping schemes are sets of tables (matrices) that inform the distribution of building characteristics by occupancy to Hazus-MH. MSH.mdb is the Access database that provides mapping scheme tables for Hazus-MH damage and loses assessment. There are two sets of mapping schemes tables. One set provides the percentage distribution of building by building types and occupancy. An example would be to specify that RES1 (single-family dwellings) is 80 percent wood and 20 percent masonry. The other set, specific to the Flood Model, provides the percentage distribution of pre-FIRM and post- FIRM by foundation type for each occupancy type. The geographical domain of the database is the state. In that case, there is one MSH.mdb database for each state, each located in the appropriate State folder. During the creation of a study region, for all hazards, records from tables with prefix hz (hzGenBldgScheme and hzGenBldgSchemes) are appended to tables with the same name in the SQL Server database in the Region folder. The table hzGenBldgSchemes portrays the available schemes for a particular state, while hzGenBldgScheme defines the distribution of general building types (wood, steel, etc.) for each of these schemes by occupancy. Although originally designed for the Earthquake Model, the distribution of general building type as presented in hzGenBldgScheme table is commonly used across all Hazus-MH Models. Tables with prefix eq in their names are specific to the EQ Model. One table for each general building type (wood, steel, etc.) portrays the distribution of specific building types by design level. Records from these tables are appended to tables with the same name in the SQL Server database in the Region folder if an EQ region is aggregated. Flood specific tables have names with prefix fl. Records from these tables are appended to tables with the same name in the SQL Server database in the Region folder when a flood region is aggregated. Appendix F: Hazus-MH Data Dictionary F-307 F.12.1.1 Occupancy Mapping Scheme for Building Type While information about replacement value, building count, and square footage by occupancy is explicitly depicted in tables (by census tract and by census block) in bndrygbs.mdb (see State Boundaries: Boundary.mdb), building type distribution by occupancy is handled differently. Two sets of tables deal with the distribution of building types by occupancy. One set takes care of general building type distribution (e.g., wood, concrete, and masonry) and another set takes care of specific building type distribution (e.g., wood light frame [W1] or concrete share wall low-rise [C2L]). In terms of general building type, the table named hzGenBldgSchemes acts as bookkeeper, listing all building schemes available for a particular state. Building scheme, in this context, refers to a particular mapping of the distribution of general building types. In both feature classes previously discussed—hzTract (Census Tract Boundaries) and hzCensusBlock (Census Block Boundaries) in the State Boundaries (Boundary.mdb) geodatabase—a field specifies the appropriate building scheme identifier to be applied to determine the distribution of building type. Figure 1 shows that there are two building schemes available in the Hazus-MH default database for Illinois. The use of the state abbreviation for the building scheme identifier (BldgSchemeID) is not required. Instead, any alphanumeric string can be used (that is, up to 10 characters length). Figure 1: Available Default Building Schemes for Illinois As shown in Figure 2, for each of these building schemes, there will be 33 records (one for each occupancy type in Hazus-MH) in a table named hzGenBldgScheme that define the distribution in percentage by general building type: wood, masonry, steel, concrete, and manufactured home. Hazus-MH User’s Manual F-308 Figure 2: General Mapping Schemes by Occupancy for Illinois In this way, Hazus-MH will realize that for a particular tract or block with building scheme IL1 assigned; for instance, 77 percent of buildings classified as occupancy type RES1 are wood structures. As shown in Figure 1, the field BldgSchemeID refers to a record in hzGenBldgScheme. The value IL1 in field GenBldgSchemeId uniquely identifies the general building scheme of RES1 for Building Scheme IL15 while value IL2 in the field GenBldgSchemeId uniquely identifies the general building scheme of RES1 for the same building scheme IL1. As noted, a second set of tables maps the specific building type by design level. In terms of specific building type, a table named eqSpcBldgSchemes will act as the bookkeeper for all specific building schemes available for a particular state. Specific building schemes, in this context, refer to a particular mapping of the distribution of specific building types. Figure 3 shows several records in eqSpcBldgSchemes that are available in Hazus-MH default database for Illinois. Again, the use of the state abbreviation for the specific building scheme identifier (eqSpcBldgSchemeID) is not required. Figure 3: Available Default Specific Building Schemes for Illinois The user must be aware that naming convention may result in confusions. In Hazus-MH default inventory, the same naming convention (State abbreviation plus a number) is used for identifying building schemes in table hzGenBldgScheme (field BldgSchemeID ) and for the record that refers to the general building scheme for occupancy type RES1 in hzGenBldgSchemes table (field GenBldgSchemeID) However, both are identifying different items and, as previously stated, the use of the State abbreviation is not required. Instead, any alphanumeric string can be used (up to 10 characters length). Appendix F: Hazus-MH Data Dictionary F-309 By default, there are 165 records in Hazus-MH for each building scheme available in hzGenBldgSchemes; however, there can be fewer or more as necessary. Each set of 165 records consists of 33 subsets (representatives of the 33 specific occupancy class) and five records (one for each general building type like wood, concrete, etc.). For instance, the Specific Building Scheme IL1 (Figure 3) refers to RES1-wood buildings. Details of the distribution of building types for each scheme is stored in five tables, one for each general building type. In this way, wood type schemes are stored in a table named eqWBldgTypeMp, while concrete type schemes are stored in a table named eqCBldgTypeMp. Figure 4 shows the specific building type distribution for wood from the EqWBldgTypeMp table for Illinois. Using the example in the paragraph above, wood for RES1 is mapped to 100 percent W1 (wood light-frame) with design level low code for the rest of combination building type/design level. By definition, the percentages must total 100. This subset of tables is exclusive to the EQ Model, as the prefix in the names indicates. Figure 4: Specific Building Type Scheme (Wood) from EqWbldgtypemp Table Hazus-MH User’s Manual F-310 Figure 5 shows the relationship between the occupancy mapping scheme tables discussed above. Figure 5: Occupancy Mapping Scheme Relationship in Hazus-MH There is a many-to-many relationship between the general mapping schemes (hzGenBldgScheme) and the specific mapping schemes (eqSpcBldgSchemes). This relationship is stored in the table eqrlnSchemes. In this way, two general schemes (as Appendix F: Hazus-MH Data Dictionary F-311 specified in hzGenBldgSchemes) can share the same scheme definition in eqSpcBldgSchemes for a particular occupancy/building type distribution (for instance, Res1/W2). Figure 6 shows a partial view of Illinois eqInScheme table. For general building scheme IL1 (RES1) in hzGenBldgScheme (see Figure 2), there are five specific building type (field eqSpcBldgSchemeID): IL1 (RES1-Wood), IL34 (RES1-Concrete), etc. Figure 6: Partial view of eqInScheme table. F.12.1.2 Flood Model Mapping Scheme First floor elevation (as determined from foundation type) is another key parameter for the estimation of flood damage. Information on foundation types for the general building stock is provided by a foundation mapping scheme consisting of a set of tables that depicts how foundation type and first floor elevations are distributed by specific occupancy. Hazus-MH User’s Manual F-312 Figure 7: Specific Building Type Scheme (Wood) from Eqcbldgtypemp Table. Conversely, the scheme identifier of the occupancy mapping scheme for building type is not assigned in the hzCensusBlock (Census Block Boundaries) feature class directly, but there is a table (flSchemeMapping ) in MSH.mdb assigned to each census block number in the state a scheme identifier. F.12.2 Identification MSH.mdb F.12.3 Database Content The MSH.mdb database includes: Name Type Content hzGenBldgSchemes ESRI Table hzGenBldgSchemes holds a list of all the mapping schemes available in the state. This table is a bookkeeping table that holds items such as the name of the scheme and the date it was created. hzGenBldgScheme ESRI Table hzGenBldgScheme is the table with values for general building type associated with all mapping schemes in hzGenBldgSchemes. There are 33 records—one for each specific occupancy class (Res1, Res2, Com6, etc.)—for each scheme available in hzGenBldgSchemes. For each record, the percentage of building by general building Appendix F: Hazus-MH Data Dictionary F-313 type (wood, concrete, etc.) is summarized. eqrlnSchemes ESRI Table There is a many-to-many relationship between the general mapping schemes (hzGenBldgScheme) and the specific mapping schemes (eqSpcBldgSchemes); this relationship is stored in the table eqrlnSchemes. In this way, two general schemes (as specified in hzGenBldgSchemes) can share the same scheme definition in eqSpcBldgSchemes for a particular occupancy/building type distribution (for instance, Res1/W2). eqSpcBldgSchemes eqSpcBldgSchemes is the equivalent of hzGenBldgSchemes, but applies to the specific building type distribution. eqCBldgTypeMp ESRI Table eqCBldgTypeMp portrays the percentage of specific concrete building type (for instance, C1LP and C1MP) by design level. Each record in eqSpcBldgSchemes for concrete building type has five related records (one for each design level type) in eqCBldgTypeMp. eqHBldgTypeMp ESRI Table eqHBldgTypeMp portrays the percentage of specific manufactured home building type (MHP) by design level. Each record in eqSpcBldgSchemes for manufactured home building type has five related records (one for each design level type) in eqHBldgTypeMp. eqMBldgTypeMp ESRI Table eqMBldgTypeMp portrays the percentage of specific masonry building type (for instance, RM1LP and RM1MP) by design level. Each record in eqSpcBldgSchemes for masonry building type has five related records (one for each design level type) in eqMBldgTypeMp. eqWBldgTypeMp ESRI Table eqWBldgTypeMp portrays the percentage of specific wood building type (for instance, W1P and W2P) by design level. Each record in eqSpcBldgSchemes for wood building type has five related records (one for each design level type) in eqWBldgTypeMp. eqSBldgTypeMp ESRI Table eqSBldgTypeMp portrays the percentage of specific Hazus-MH User’s Manual F-314 steel building type (for instance, S1LP and S1MP) by design level. Each record in eqSpcBldgSchemes for steel building type has five related records (one for each design level type) in eqSBldgTypeMp. flSchemeInfo ESRI Table flSchemeInfo holds a list of all mapping schemes available in the state. This table is a bookkeeping table holding items such as scheme name and creation date. flSchemeCoastal ESRI Table flSchemeCoastal portrays the distribution (expressed in percentages) of foundation types (pile, pier, solid wall, etc.) by occupancy with the building’s first floor elevation for each foundation type in coastal areas. Elevation and percentage distribution is provided for pre-FIRM and post-FIRM conditions. flSchemeGLakes ESRI Table flSchemeGLakes portray the distribution (expressed in percentages) of foundation types (pile, pier, solid wall, etc.) by occupancy with the building’s first floor elevation for each foundation type in Great Lakes areas. Elevation and percentage distribution is provided for pre-FIRM and post-FIRM conditions flschemeRiverine ESRI Table flschemeRiverine portrays the distribution (expressed in percentages) of foundation types (pile, pier, solid wall, etc.) by occupancy with the building’s first floor elevation for each foundation type in areas with riverine hazard). Elevation and percentage distribution is provided for pre-FIRM and post-FIRM conditions. flSchemeMapping ESRI Table flSchemeMapping assigns scheme type to each census block in a state. Appendix F: Hazus-MH Data Dictionary F-315 F.12.3.1 Building Schemes Catalog: hzGenBldgSchemes Identification: hzGenBldgSchemes Type: ESRI Table Purpose: This table holds a list of all mapping schemes available in the state. This table is a bookkeeping table holding items such as the scheme name and date of creation. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description BldgSchemesId Text(10) F T Building scheme unique ID SchemeName Text(30) F T Building scheme name Description Text(100) F N Scheme description Created Date Date/Time F T Scheme creation date Updated Date Date/Time F T Scheme modification date MappingType Text(2) F T, UC D=Default UE=User-defined in Earthquake Model UF=User-defined in Flood Model UH=Userdefined in hurricane Model BT=BIT mapping scheme Source of scheme (Default, user- defined, or BIT) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-316 F.12.3.2 General Building Schemes: hzGenBldgScheme Identification: hzGenBldgSchemes Type: ESRI Table Purpose: This table provides percentages for general building type associated with all the mapping schemes in hzGenBldgSchemes. There are 33 records—one for each specific occupancy class (Res1, Res2, Com6, etc.)—for each scheme available in hzGenBldgSchemes. For each record, the percentage of building by general building type (wood, concrete, etc.) is summarized. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-317 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description GenBldgSchem eID Text(10) F T General building scheme unique ID BldgSchemesId Text(30) F T Foreign key to BldgSchemesId field in hzGenBldgSchemes table Occupancy Text(5) F T, UC RES1, RES2, Occupancy type RES3A, RES3B, RES3C, RES3D, RES3E, RES3F, RES4, RES5, RES6, COM1, COM2, COM3, COM4, COM5, COM6, COM7, COM8, COM9, COM10, IND1, IND2, IND3, IND4, IND5, IND6, AGR1, REL1, GOV1, GOV2, EDU1, EDU2 Total Short(2) Integer(2) F F Null or between 0 and 100 Total WPct Short(2) Integer(2) F F Null or between 0 and 100 Percentage wood CPct Short(2) Integer(2) F F Null or between 0 and 100 Percentage concrete SPct Short(2) Integer(2) F F Null or between 0 and 100 Percentage steel MPct Short(2) Integer(2) F F Null or between 0 and 100 Percentage masonry Hazus-MH User’s Manual F-318 HPct Short(2) Integer(2) F F Null or between 0 and 100 Percentage manufactured homes * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-319 F.12.3.3 EQ Building Scheme Relationships Table: eqrlnSchemes Identification: hzGenBldgSchemes Type: ESRI Table Purpose: This table keeps a many-to-many relationship between the general mapping schemes (hzGenBldgScheme) and the specific mapping schemes (eqSpcBldgSchemes). In this way, two general schemes (as specified in hzGenBldgSchemes) can share the same scheme definition in eqSpcBldgSchemes for a particular occupancy/building type distribution (for instance, Res1/W2). Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Requir ed* Values Description GenBldgSche Text(10) F T Building scheme ID in meId hzGenBldgSchemes table. There must be records in hzGenBldgSchemes with this ID. eqSpcBldgSch Text(10) F T Specific building type Scheme ID emesId in eqSpcBldgSchemes table. There must be a record in eqSpcBldgSchemesId with this ID. * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-320 F.12.3.4 EQ Specific Building Type Schemes Catalog: eqSpcBldgSchemes Identification: eqSpcBldgSchemes Type: ESRI Table Purpose: This table holds a list of all specific building type schemes available in the state in tables qSpcBldgSchemes, eqCBldgTypeMp, eqHBldgTypeMp, eqMBldgTypeMp, and eqSBldgTypeMp. This table is a bookkeeping table holding items such as scheme name and creation date. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-321 Name ESRI Type (Size) Access Type(Size) Index * Require d* Values Description eqSpcBldgSchem esId Text(10) F T Specific building type scheme unique ID SchemeName Text(30) F T Specific building type scheme name Description Text(100) F F Scheme description BldgTypeSource Text(1) F F Null W=Wood S=Steel C=Concrete M=Masonry H=Manufactured Home Building type source Created Date Date/Time F F Scheme creation date Updated Date Date/Time F F Scheme modification date MappingType Text(1) F T, UC D=Default UE=User-defined in Earthquake Model UF=User-defined in Flood Model UH=User-defined in hurricane Model BT=BIT mapping scheme Scheme source (default, user- defined, or BIT) * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-322 F.12.3.5 EQ Wood Specific Building Type Scheme: eqWBldgTypeMp Identification: eqWBldgTypeMp Type: ESRI Table Purpose: eqWBldgTypeMp portrays the percentage of specific wood building type by design level. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description eqWBldgType MpId Text(10) F T General building scheme unique ID eqSpcBldgSch emesId Text(30) F T Foreign key to BldgSchemesId field in hzGenBldgSchemes table DesignLevel Text(2) F F, UC Null, HC, MC, LC, PC, HS, MS, MS, LS, LS Building design level. See Appendix C. W1P Short(2) Integer(2) F F Null or between 0 and 100 Percentage of wood light frame out of wood structures W2P Short(2) Integer(2) F F Null or between 0 and 100 Percentage wood, commercial, and industrial out of wood structures * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-323 F.12.3.6 EQ Concrete Specific Building Type Scheme: eqCBldgTypeMp Identification: eqCBldgTypeMp Type: ESRI Table Purpose: eqCBldgTypeMp portrays the percentage of specific concrete building by design level. Data: Feature Class Field Definition Hazus-MH User’s Manual F-324 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description eqCBldgType MpId Text(10) F T General building scheme unique ID eqSpcBldgSch emesId Text(30) F T This is a foreign key to BldgSchemesId field in hzGenBldgSchemes table DesignLevel Text(2) F F,UC Null, HC, MC, LC, PC, HS, MS, MS, LS, LS Building design level. See Appendix C. C1LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete moment frame, low-rise, out of concrete structures C1MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete moment frame, mid-rise, out of concrete structures C1HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete moment frame, high-rise, out of concrete structures C2LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete shear wall, low-rise, out of concrete structures C2MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete shear wall, mid-rise, out of concrete structures C2HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete shear wall, high-rise, out of concrete structures C3LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete frame with unreinforced masonry infill walls, low-rise, out of concrete structures C3MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete frame with unreinforced masonry infill Appendix F: Hazus-MH Data Dictionary F-325 walls, mid-rise, out of concrete structures C3HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of concrete frame with unreinforced masonry infill walls, high-rise, out of concrete structures PC1P Short(2) Integer(2) F F Null or between 0 and 100 Percentage of precast concrete tilt-up walls out of concrete structures PC2LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of precast concrete frames with concrete shear walls, low-rise, out of concrete structures PC2MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of precast concrete frames with concrete shear walls, mid-rise, out of concrete structures PC2HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of precast concrete frames with concrete shear walls, high-rise, out of concrete structures * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-326 F.12.3.7 EQ Steel Specific Building Type Scheme: eqSBldgTypeMp Identification: eqSBldgTypeMp Type: ESRI Table Purpose: eqSBldgTypeMp portrays the percentage of specific steel building by design level. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-327 Name ESRI Type (Size) Access Type (Size) Index * Required * Values Description eqCBldgType MpId Text(10) F T General building scheme unique ID eqSpcBldgSch emesId Text(30) F T Foreign key to BldgSchemesId field in hzGenBldgSchemes table DesignLevel Text(2) F F,UC Null, HC, MC, LC, PC, HS, MS, MS, LS, LS Building design level. See Appendix C. S1LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel moment frame, low-rise, out of steel structures S1MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel moment frame, mid-rise, out of steel structures S1HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel moment frame, high-rise, out of steel structures S2LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel braced frame, low-rise, out of steel structures S2MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel braced frame, mid-rise, out of steel structures S2HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel braced frame, high-rise, out of steel structures S3P Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel light frame with unreinforced masonry infill walls low-rise, out of steel structures S4LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel frame with cast-in-place concrete shear walls, mid-rise, out of steel structures S4MP Short(2) F F Null or between Percentage of steel frame with Hazus-MH User’s Manual F-328 Integer(2) 0 and 100 cast-in-place concrete shear walls, high-rise, out of steel structures S4HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel frame with cast-in-place concrete shear walls out of steel structures S5LP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel frame with unreinforced masonry infill walls, low-rise, out of steel structures S5MP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel frame with unreinforced masonry infill walls, mid-rise, out of steel structures S5HP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of steel frame with unreinforced masonry infill walls, high-rise, out of steel structures * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-329 F.12.3.8 EQ Masonry Specific Building Type Scheme: eqMBldgTypeMp Identification: eqMBldgTypeMp Type: ESRI Table Purpose: eqMBldgTypeMp portrays the percentage of specific masonry building by design level. Data: Feature Class Field Definition Hazus-MH User’s Manual F-330 Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description eqCBldgType MpId Text(10) F T General building scheme unique ID eqSpcBldgSch emesId Text(30) F T Foreign key to BldgSchemesId field in hzGenBldgSchemes table DesignLevel Text(2) F F, UC Null, HC, MC, LC, PC, HS, MS, MS, LS, LS Building design level. See Appendix C. RM1LP Short(2) F F Percentage of reinforced masonry Integer(2) Null or between 0 bearing walls with wood or metal and 100 deck diaphragms, low-rise, out of masonry structures RM1MP Short(2) F F Percentage of reinforced masonry Integer(2) Null or between 0 bearing walls with wood or metal and 100 deck diaphragms, mid-rise, out of masonry structures RM2LP Short(2) F F Null or between 0 Percentage of reinforced masonry Integer(2) and 100 bearing walls with precast concrete diaphragms, high-rise, out of masonry structures RM2MP Short(2) F F Null or between 0 Percentage of reinforced masonry Integer(2) and 100 bearing walls with precast concrete diaphragms, low-rise, out of masonry structure RM2HP Short(2) F F Null or between 0 Percentage of reinforced masonry Integer(2) and 100 bearing walls with precast concrete diaphragms, mid-rise, out of masonry structures URMLP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of unreinforced masonry bearing walls, high-rise, out of masonry structures URMMP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of unreinforced masonry bearing walls, low-rise, Appendix F: Hazus-MH Data Dictionary F-331 out of masonry structures * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-332 F.12.3.9 EQ Manufactured Homes Specific Building Type Scheme: eqHBldgTypeMp Identification: eqHBldgTypeMp Type: ESRI Table Purpose: eqHBldgTypeMp portrays the percentage of specific manufactured home building by design level. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Required * Values Description eqCBldgType MpId Text(10) F T General building scheme unique ID eqSpcBldgSch emesId Text(30) F T Foreign key to BldgSchemesId field in hzGenBldgSchemes table DesignLevel Text(2) F F UC Null, HC, MC, LC, PC, HS, MS, MS, LS, LS Building design level. See Appendix C. MHP Short(2) Integer(2) F F Null or between 0 and 100 Percentage of manufactured home structures * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-333 F.12.3.10 Flood Schemes Catalog: flSchemeInfo Identification: flSchemeInfo Type: ESRI Table Purpose: This table holds a list of Flood Model related mapping schemes available in the state. It is a bookkeeping table holding items such as scheme name and date of its creation. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description SchemeId Text(8) F T Building scheme unique ID SchemeName Text(50) F T Building scheme name Created Date Date/Time F T Scheme creation date Updated Date Date/Time F T Scheme modification date Editable Short(2) Integer(2) F T 0=No 1=Yes Provides information about if the scheme is editable Description Text(100) F F Scheme description * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-334 F.12.3.11 Flood Riverine Scheme: flSchemeRiverin Identification: flSchemeRiverine Type: ESRI Table Purpose: flschemeRiverine portrays the distribution ( expressed in percentages) of foundation types (pile, pier, solid wall, etc.) by occupancy with the building’s first floor elevation for each foundation type in areas with riverine hazard. Elevation and percentage distribution is provided for pre-FIRM and post- FIRM conditions. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-335 Name ESRI Type Index Required Values Description (Size) * * Access Type (Size) SchemeId Text(10) F T Scheme unique ID SOccup Text(5) F T, UC RES1, RES2, RES3A, RES3B, Occupancy type RES3C, RES3D, RES3E, RES3F, RES4, RES5, RES6, COM1, COM2, COM3, COM4, COM5, COM6, COM7, COM8, COM9, COM10, IND1, IND2, IND3, IND4, IND5, IND6, AGR1, REL1, GOV1, GOV2, EDU1, EDU2 FoundationType Text(10) F T Pile, Pier, SolidWall, Building foundation type Basement, Crawl, Fill, Slab PreFirmDist Short(2) Integer(2) F N Null or between 0 and 100 Percentage of structures built before FIRM was made for the community PreFirmHt Short(2) Integer(2) F N Height of first floor of structures built before a FIRM was made for the community PostFirmDist Short(2) Integer(2) F N Null or between 0 and 100 Percentage of structures built after a FIRM was made for the community Hazus-MH User’s Manual F-336 PostFirmHt Short(2) Integer(2) F N Height of first floor of structures built after FIRM was made for the community HazardType Text(1) F T R=Riverine C=Coastal L=Great Lake Hazard type * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-337 F.12.3.12 Flood Coastal Scheme: flSchemeCoastal Identification: flSchemeCoastal Type: ESRI Table Purpose: flSchemeCoastal portrays the distribution (expressed in percentages) of foundation types (pile, pier, solid wall, etc.) by occupancy with the building’s first floor elevation for each foundation type in areas with coastal hazard. Elevation and percentage distribution is provided for pre-FIRM and post- FIRM conditions Data: Feature Class Field Definition Hazus-MH User’s Manual F-338 Name ESRI Type (Size) Access Type (Size) Inde x* Require d* Values Description SchemeId Text(10) F T Scheme unique ID SOccup Text(5) F T, UC RES1, RES2, Occupancy type RES3A, RES3B, RES3C, RES3D, RES3E, RES3F, RES4, RES5, RES6, COM1, COM2, COM3, COM4, COM5, COM6, COM7, COM8, COM9, COM10, IND1, IND2, IND3, IND4, IND5, IND6, AGR1, REL1, GOV1, GOV2, EDU1, EDU2 FoundationType Text(10) F T Pile, Pier, Solid Wall, Basement, Crawl, Fill, Slab Building foundation type PreFirmDist Short(2) F F Percentage of structures built Null or between 0 Integer(2) before FIRM was made for the and 100 community PreFirmHt Short(2) Integer(2) F F Height of first floor of structures built before FIRM was made for the community PostFirmDistAZone Short(2) Integer(2) F F Null or between 0 and 100 Percentage of structures built in Zone A after FIRM was made for the community PostFirmHtAZone Short(2) F F Height of first floor of structures Appendix F: Hazus-MH Data Dictionary F-339 Integer(2) in Zone A built after FIRM was made for the community PostFirmDistVZone Short(2) Integer(2) Null or between 0 and 100 Percentage of structures built in Zone V after FIRM was made for the community PostFirmHtVZone Short(2) Integer(2) Height of first floor of structures in Zone V built after FIRM was made for the community HazardType Text(1) F T R=Riverine C=Coastal L=Great Lake Hazard type * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-340 F.12.3.13 Flood Great Lakes Scheme: flSchemeGLakes Identification: flSchemeGLake Type: ESRI Table Purpose: flSchemeGLake portrays the distribution (expressed in percentages) of foundation types (pile, pier, solid wall, etc.) by occupancy with the building’s first floor elevation for each foundation type in Great Lakes area. Elevation and percentage distribution is provided for pre-FIRM and post-FIRM conditions. Data: Feature Class Field Definition Appendix F: Hazus-MH Data Dictionary F-341 Name ESRI Inde Require Values Description Type x* d* (Size) Access Type (Size) SchemeId Text(10) F T Scheme unique ID SOccup Text(5) F T, UC RES1, RES2, RES3A, RES3B, Occupancy type RES3C, RES3D, RES3E, RES3F, RES4, RES5, RES6, COM1, COM2, COM3, COM4, COM5, COM6, COM7, COM8, COM9, COM10, IND1, IND2, IND3, IND4, IND5, IND6, AGR1, REL1, GOV1, GOV2, EDU1, EDU2 FoundationType Text(10) F T Pile, Pier, Solid Building foundation type Wall, Basement, Crawl, Fill, Slab PreFirmDist Long(4) Long Integer(4) F F Null or between 0 and 100 Percentage of structures built before FIRM was made for the community PreFirmHt Long(4) Long Integer(4) F F Height of first floor of structures built before FIRM was made for the community PostFirmDistAZone Short(2) Integer(2) F F Null or between 0 and 100 Percentage of structures built in Zone A after FIRM was made for the community Hazus-MH User’s Manual F-342 PostFirmHtAZone Short(2) Integer(2) F F Height of first floor of structures in Zone A built after FIRM was made for the community PostFirmDistVZone Short(2) Integer(2) Null or between 0 and 100 Percentage of structures built in Zone V after FIRM was made for the community PostFirmHtVZone Short(2) Integer(2) Height of first floor of structures in Zone V built after FIRM was made for the community HazardType Text(1) F T R=Riverine C=Coastal L=Great Lake Hazard type * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Appendix F: Hazus-MH Data Dictionary F-343 F.12.3.14 Census Block Scheme Definition: flSchemeMapping Identification: flSchemeGLake Type: ESRI Table Purpose: flSchemeMapping assigns scheme type to each census block in a state. Data: Feature Class Field Definition Name ESRI Type (Size) Access Type (Size) Index * Require d* Values Description CensusBlock Text(15) T, U, A 15 digits of the census block number SchemeId Text(10) F T Scheme unique ID EntryDate Short(2) Integer(2) F F Community FIRM entry date; year is formatted yyyy (for instance, 2003) UDPrePct Short(2) Integer(2) F F * T=True; F=False; U=Unique; NU=Non-Unique; A=Ascending; D=Descending; UC=Uppercase; LC=Lowercase Hazus-MH User’s Manual F-344 F.13 Acronyms and Abbreviations AHA American Hospital Association BIT Building-Data Import Tool CAS Chemical Abstract Service EF Essential Facilities EOC Emergency Operation Centers EPA Environmental Protection Agency EQ Earthquake ESRI Environmental Systems Research Institute FEMA Federal Emergency Management Agency FHWA Federal Highway Administration FIPS Federal Information Processing Standard FIRM Flood Insurance Rate Map FL Flood GBS General Building Stock GIS Geographic Information System Hazus-MH MR3 Hazard United States-Multihazard Maintenance Release 3 HPLF High Potential Loss Facilities HU Hurricane NEHRP National Earthquake Hazard Reduction Program POWSAN Potable Water System Analysis Model USPS United States Postal Service Appendix F: Hazus-MH Data Dictionary F-345 F.14 Classification Systems Table F.14.1 Site Classes Site Class Site Class Description Shear Wave Velocity (m/sec) Minimum Maximum A Hard Rock Eastern United States sites only 1500 B Rock 760 1500 C Very Dense Soil and Soft Rock Untrained shear strength us > 2000 psf (us > 100 kPa) or N > 50 blows/ft 360 760 D Stiff Soils Stiff soil with undrained shear strength 1000 psf < us < 2000 psf (50 kPa < us < 100 kPa) or 15 < N < 50 blows/ft 180 360 Soft Soils Profile with more than 10 ft (3 m) of soft clay defined as soil with plasticity index PI > 20, moisture content w > 40% and undrained shear strength us < 1000 psf (50 kPa) (N < 15 blows/ft) 180 F Soils Requiring Site specific Evaluations 1. Soils vulnerable to potential failure or collapse under seismic loading: e.g. liquefiable soils, quick and highly sensitive clays, collapsible weakly cemented soils. 2. Peats and/or highly organic clays (10 ft (3 m) or thicker layer) 3. Very high plasticity clays: (25 ft (8 m) or thicker layer with plasticity index >75) 4. Very thick soft/medium stiff clays: (120 ft (36 m) or thicker layer) Source: 1997 National Earthquake Hazard Reduction Program (NEHRP) Provisions Hazus-MH User’s Manual F-346 Table F.14.2 Structural Building Classifications Height No. Label Description Range Typical Name Stories Stories Feet 1 2 W1 W2 Wood, Light Frame (. 5,000 sq.ft.) Wood, Greater than 5,000 sq. ft. 1 - 2 All 1 2 14 24 3 4 5 S1L S1M S1H Steel Moment Frame Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 13 24 60 156 6 7 8 S2L S2M S2H Steel Braced Frame Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 13 24 60 156 9 S3 Steel Light Frame All 1 15 10 11 12 S4L S4M S4H Steel Frame with Cast-in-Place Concrete Shear Walls Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 13 24 60 156 13 14 15 S5L S5M S5H Steel Frame with Unreinforced Masonry Infill Walls Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 13 24 60 156 16 17 18 C1L C1M C1H Concrete Moment Frame Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 12 20 50 120 19 20 21 C2L C2M C2H Concrete Shear Walls Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 12 20 50 120 22 23 24 C3L C3M C3H Concrete Frame with Unreinforced Masonry Infill Walls Low-Rise Mid-Rise High-Rise 1 - 3 4 - 7 8+ 2 5 12 20 50 120 25 PC1 Precast Concrete Tilt-Up Walls All 1 15 26 PC2L Precast Concrete Frames with Low-Rise 1 - 3 2 20 Appendix F: Hazus-MH Data Dictionary F-347 27 PC2M Concrete Shear Walls Mid-Rise 4 - 7 5 50 28 PC2H High-Rise 8+ 12 120 29 30 RM1L RM2M Reinforced Masonry Bearing Wall s with Wood or Metal Deck Diaphragms Low-Rise Mid-Rise 1-3 4+ 2 5 20 50 31 RM2L Reinforced Masonry Bearing Wall s Low-Rise 1 - 3 2 20 32 RM2M with Precast Concrete Diaphragms Mid-Rise 4 - 7 5 50 33 RM2H High-Rise 8+ 12 120 34 URML Unreinforced Masonry Bearing Walls Low-Rise 1 - 2 1 15 35 URMM Mid-Rise 3+ 3 35 36 MH Mobile Homes All 1 10 Hazus-MH User’s Manual F-348 Table F.14.3 Building Occupancy Classes Label Occupancy Class Example Descriptions Residential RES1 Single Family Dwelling House RES2 Mobile Home Mobile Home RES3 Multi Family Dwelling RES3A Duplex RES3B 3-4 Units RES3C 5-9 Units RES3D 10-19 Units RES3E 20-49 Units RES3F 50+ Units Apartment/Condominium RES4 Temporary Lodging Hotel/Motel RES5 Institutional Dormitory Group Housing (military, college), Jails RES6 Nursing Home Commercial COM1 Retail Trade Store COM2 Wholesale Trade Warehouse COM3 Personal and Repair Services Service Station/Shop COM4 Professional/Technical Services Offices COM5 Banks COM6 Hospital COM7 Medical Office/Clinic COM8 Entertainment & Recreation Restaurants/Bars COM9 Theaters Theaters COM10 Parking Garages Industrial IND1 Heavy Factory IND2 Light Factory Appendix F: Hazus-MH Data Dictionary F-349 IND3 Food/Drugs/Chemicals Factory IND4 Metals/Minerals Processing Factory IND5 High Technology Factory IND6 Construction Office Agriculture AGR1 Agriculture Religion/Non/Profit REL1 Church/Non-Profit Government GOV1 General Services Office GOV2 Emergency Response Police/Fire Station/EOC Education EDU1 Grade Schools EDU2 Colleges/Universities Does not include group housing Hazus-MH User’s Manual F-350 Table F.14.4 Essential Facilities Classification Label Occupancy Class Description Medical Care Facilities EFHS Small Hospital Hospital with less than 50 Beds EFHM Medium Hospital Hospital with beds between 50 & 150 EFHL Large Hospital Hospital with greater than 150 Beds EFMC Medical Clinics Clinics, Labs, Blood Banks Emergency Response EFFS Fire Station EFPS Police Station EFEO Emergency Operation Centers Schools EFS1 Grade Schools Primary/ High Schools EFS2 Colleges/Universities Appendix F: Hazus-MH Data Dictionary F-351 Table F.14.5 High Potential Loss Facilities Classification Label Description Dams HPDE Earth HPDR Rock fill HPDG Gravity HPDB Buttress HPDA Arch HPDU Multi-Arch HPDC Concrete HPDM Masonry HPDS Stone HPDT Timber Crib HPDZ Miscellaneous Nuclear Power Facilities HPNP Nuclear Power Facilities Military Installations HPMI Military Installations Hazus-MH User’s Manual F-352 Table F.14.6 Highway System Classification Label Description Highway Roads HRD1 Major Roads HRD2 Urban Roads Highway Bridges HWB1 Major Bridge - Length > 150m (Conventional Design) HWB2 Major Bridge - Length > 150m (Seismic Design) HWB3 Single Span – (Not HWB1 or HWB2) (Conventional Design) HWB4 Single Span – (Not HWB1 or HWB2) (Seismic Design) HWB5 Concrete, Multi-Column Bent, Simple Support (Conventional Design), Non-California (Non-CA) HWB6 Concrete, Multi-Column Bent, Simple Support (Conventional Design), California (CA) HWB7 Concrete, Multi-Column Bent, Simple Support (Seismic Design) HWB8 Continuous Concrete, Single Column, Box Girder (Conventional Design) HWB9 Continuous Concrete, Single Column, Box Girder (Seismic Design) HWB10 Continuous Concrete, (Not HWB8 or HWB9) (Conventional Design) HWB11 Continuous Concrete, (Not HWB8 or HWB9) (Seismic Design) HWB12 Steel, Multi-Column Bent, Simple Support (Conventional Design), Non-California (Non- CA) HWB13 Steel, Multi-Column Bent, Simple Support (Conventional Design), California (CA) HWB14 Steel, Multi-Column Bent, Simple Support (Seismic Design) HWB15 Continuous Steel (Conventional Design) HWB16 Continuous Steel (Seismic Design) HWB17 PS Concrete Multi-Column Bent, Simple Support - (Conventional Design), Non-California HWB18 PS Concrete, Multi-Column Bent, Simple Support (Conventional Design), California (CA) HWB19 PS Concrete, Multi-Column Bent, Simple Support (Seismic Design) HWB20 PS Concrete, Single Column, Box Girder (Conventional Design) HWB21 PS Concrete, Single Column, Box Girder (Seismic Design) HWB22 Continuous Concrete, (Not HWB20/HWB21) (Conventional Design) Appendix F: Hazus-MH Data Dictionary F-353 HWB23 Continuous Concrete, (Not HWB20/HWB21) (Seismic Design) HWB24 Same definition as HWB12 except that the bridge length is less than 20 meters HWB25 Same definition as HWB13 except that the bridge length is less than 20 meters HWB26 Same definition as HWB15 except that the bridge length is less than 20 meters and Non- CA HWB27 Same definition as HWB15 except that the bridge length is less than 20 meters and in CA HWB28 All other bridges that are not classified (including wooden bridges) Highway Tunnels HTU1 Highway Bored/Drilled Tunnel HTU2 Highway Cut and Cover Tunnel Hazus-MH User’s Manual F-354 Table F.14.7 Railway System Classification Label Description RTR1 RLB1 RLB2 RLB3 RLB4 RLB5 RLB6 RLB7 RLB8 RLB9 RLB10 RST Railway Tracks Railway Tracks Railway Bridges Steel, Multi-Column Bent, Simple Support (Conventional Design), Non- California (Non-CA) Steel, Multi-Column Bent, Simple Support (Conventional Design), California (CA) Steel, Multi-Column Bent, Simple Support (Seismic Design) Continuous Steel (Conventional Design) Continuous Steel (Seismic Design) Same definition as HWB1 except that the bridge length is less than 20 meters Same definition as HWB2 except that the bridge length is less than 20 meters Same definition as HWB4 except that the bridge length is less than 20 meters and Non-CA Same definition as HWB5 except that the bridge length is less than 20 meters and in CA All other bridges that are not classified Railway Urban Station Rail Urban Station (with all building type options enabled) Railway Tunnels RTU1 Rail Bored/Drilled Tunnel RTU2 Rail Cut and Cover Tunnel Railway Fuel Facility RFF Rail Fuel Facility (different combinations for with or without anchored components and/or with or without backup power) Railway Dispatch Facility RDF Rail Dispatch Facility (different combinations for with or without anchored components and/or with or without backup power) Railway Maintenance Facility RMF Rail Maintenance Facility (with all building type options enabled) Appendix F: Hazus-MH Data Dictionary F-355 Table F.14.8 Light Rail System Classification Label Description Light Rail Tracks LTR1 Light Rail Track Light Rail Bridges LRB1 Steel, Multi-Column Bent, Simple Support (Conventional Design), Non-California (Non-CA) LRB2 Steel, Multi-Column Bent, Simple Support (Conventional Design), California (CA) LRB3 Steel, Multi-Column Bent, Simple Support (Seismic Design) LRB4 Continuous Steel (Conventional Design) LRB5 Continuous Steel (Seismic Design) LRB6 Same definition as HWB1 except that the bridge length is less than 20 meters LRB7 Same definition as HWB2 except that the bridge length is less than 20 meters LRB8 Same definition as HWB4 except that the bridge length is less than 20 meters and Non-CA LRB9 Same definition as HWB5 except that the bridge length is less than 20 meters and in CA LRB10 All other bridges that are not classified Light Rail Tunnels LTU1 Light Rail Bored/Drilled Tunnel LTU2 Light Rail Cut and Cover Tunnel DC Substation LDC1 Light Rail DC Substation w/ Anchored Sub-Components LDC2 Light Rail DC Substation w/ Unanchored Sub-Components Dispatch Facility LDF Light Rail Dispatch Facility (different combinations for with or without anchored components and/or with or without backup power) Maintenance Facility LMF Maintenance Facility (with all building type options enabled) Hazus-MH User’s Manual F-356 Table F.14.9 Bus System Classification Label Description Bus Urban Station BPT Bus Urban Station (with all building type options enabled) Bus Fuel Facility BFF Bus Fuel Facility (different combinations for with or without anchored components and/or with or without backup power) Bus Dispatch Facility BDF Bus Dispatch Facility (different combinations for with or without anchored components and/or with or without backup power) Bus Maintenance Facility BMF Bus Maintenance Facilities (with all building type options enabled) Appendix F: Hazus-MH Data Dictionary F-357 Table F.14.10 Port and Harbor System Classification Label Description Waterfront Structures PWS Waterfront Structures Cranes/Cargo Handling Equipment PEQ1 Stationary Port Handling Equipment PEQ2 Rail Mounted Port Handling Equipment Warehouses PWH Port Warehouses (with all building type options enabled) Fuel Facility PFF Port Fuel Facility (different combinations for with or without anchored components and/or with or without backup power) Hazus-MH User’s Manual F-358 Table F.14.11 Ferry System Classification Label Description Water Front Structures FWS Ferry Waterfront Structures Ferry Passenger Terminals FPT Passenger Terminals (with all building type options enabled) Ferry Fuel Facility FFF Ferry Fuel Facility (different combinations for with or without anchored components and/or with or without backup power) Ferry Dispatch Facility FDF Ferry Dispatch Facility (different combinations for with or without anchored components and/or with or without backup power) Ferry Maintenance Facility FMF Piers and Dock Facilities (with all building type options enabled) Appendix F: Hazus-MH Data Dictionary F-359 Table F.14.12 Airport System Classification Label Description Airport Control Towers ACT Airport Control Tower (with all building type options enabled) Airport Terminal Buildings ATB Airport Terminal Building (with all building type options enabled) Airport Parking Structures APS Airport Parking Structure (with all building type options enabled) Fuel Facilities AFF Airport Fuel Facility (different combinations for with or without anchored components and/or with or without backup power) Airport Maintenance & Hangar Facility AMF Airport Maintenance & Hangar Facility (with all building type options enabled) ARW Airport Runway Airport Facilities - Others AFO Gliderport, Seaport, Stolport, Ultralight or Balloonport Facilities AFH Heliport Facilities Hazus-MH User’s Manual F-360 Table F.14.13 Potable Water System Classification Label Description Pipelines PWP1 Brittle Pipe PWP2 Ductile Pipe Pumping Plants PPPL Large Pumping Plant ( > 50 MGD ) [different combinations for with or without anchored components] PPPM Medium Pumping Plant ( 10 to 50 MGD ) [different combinations for with or without anchored components] PPPS Small Pumping Plant ( < 10 MGD ) [different combinations for with or without anchored components] Wells PWE Wells Water Storage Tanks (Typically, 0.5 MGD to 2 MGD) PSTAS Above Ground Steel Tank PSTBC Buried Concrete Tank PSTGC On Ground Concrete Tank PSTGS On Ground Steel Tank PSTGW On Ground Wood Tank Water Treatment Plants PWTL Large WTP ( > 200 MGD ) [different combinations for with or without anchored components] PWTM Medium WTP ( 50-200 MGD ) [different combinations for with or without anchored components] PWTS Small WTP ( < 50 MGD ) [different combinations for with or without anchored components] Appendix F: Hazus-MH Data Dictionary F-361 Table F.14.14 Waste Water System Classification Label Description Buried Pipelines WWP1 Brittle Pipe WWP2 Ductile Pipe Waste Water Treatment Plants WWTL Large WWTP ( > 200 MGD ) [different combinations for with or without anchored components] WWTM Medium WWTP ( 50-200 MGD ) [different combinations for with or without anchored components] WWTS Small WWTP ( < 50 MGD ) [different combinations for with or without anchored components] Lift Stations WLSL Large Lift Stations ( > 50 MGD ) [different combinations for with or without anchored components] WLSM Medium Lift Stations ( 10 MGD - 50 MGD) [different combinations for with or without anchored components] WLSS Small Lift Stations ( < 10 MGD ) [different combinations for with or without anchored components] Hazus-MH User’s Manual F-362 Table F.14.15 Oil System Classification Label Description Pipelines OIP1 Welded Steel Pipe with Gas Welded Joints OIP2 Welded Steel Pipe with Arc Welded Joints Refineries ORFL Large Refinery ( > 500,000 lb./day ) [different combinations for with or without anchored components] ORFM Medium Refinery ( 100,000 - 500,000 lb./ day) [different combinations for with or without anchored components] ORFS Small Refinery ( < 100,000 lb./day ) [different combinations for with or without anchored components] Pumping Plants OPP Pumping Plant [different combinations for with or without anchored components] Tank Farms OTF Tank Farms with Anchored Tanks [different combinations for with or without anchored components] Table F.14.16 Natural Gas System Classification Label Description Buried Pipelines NGP1 Welded Steel Pipe with Gas Welded Joints NGP2 Welded Steel Pipe with Arc Welded Joints Compressor Stations NGC Compressor Stations [different combinations for with or without anchored components] Appendix F: Hazus-MH Data Dictionary F-363 Table F.14.17 Electric Power System Classification Label Description Transmission Substations ESSL Low Voltage (115 KV) Substation [different combinations for with or without anchored components] ESSM Medium Voltage (230 KV) Substation [different combinations for with or without anchored components] ESSH High Voltage (500 KV) Substation [different combinations for with or without anchored components] Distribution Circuits EDC Distribution Circuits (either Seismically Designed Components or Standard Components) Generation Plants EPPL Large Power Plants ( > 500 MW ) [different combinations for with or without anchored components] EPPM Medium Power Plants ( 100 - 500 MW ) [different combinations for with or without anchored components] EPPS Small Power Plants ( < 100 MW ) [different combinations for with or without anchored components] Table F.14.18 Communication Classification Label Description Central Offices CCO Central Offices (different combinations for with or without anchored components and/or with or without backup power) Stations or Transmitters CBR AM or FM radio stations or transmitters CBT TV stations or transmitters CBW Weather stations or transmitters Hazus-MH User’s Manual F-364 CBO Other stations or transmitters 15. New Design Level Design level is a combination of Seismic Design Level and Building Quality and is explicitly considered in the earthquake model. The table below shows how Seismic Design Level and Building Quality are combined to obtain the seven design levels used by the methodology. New Code Description Old Code Combination BldgQuality DesignLevel HC High – Code Code High MC Moderate - Code Code Moderate LC Low – Code Code Low PC Pre – Code Inferior Low HS Special High – Code Superior High MS Special Moderate – Code Superior Moderate MS Special Moderate – Code Inferior High LS Special Low – Code Superior Low LS Special Low – Code Inferior Moderate Appendix F: Hazus-MH Data Dictionary