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Material
Use Study Folder Name TemperaturedegC
Discharge Material
Material Discharge
Mass Inventory Material to Trackbar kg kg
Storage Pressure - gauge
Mass Inventory of material to Disperse
Discharge Coefficient
Discharge
Type of Vessel Volume Inventorym3
Phase to be Released
Pressure Specification
Inventory specification
Discharge
Gas Volume Flow Hole Diameter Internal Diameter Tank Head Type of releasem3/hr mm mm m
Discharge
s m s s
Time for Time-Varying Release
Height of Discharge from Vessel Bottom
Method Used for Time Varying Releases
1st Time for Time-Varying Release
2nd Time for Time-Varying Release
Discharge Model selection Pipes
Scenario Type Pump Heads m
Number of Rates for Time-Varying Release
Duration of Interest
Pipes
m
Specify Pump Head
Number of Excess Flow Valves
Number of Non-Return Valves
Number of Shut-Off Valves
Distance To Break
Pipes
Relative Aperture Pumped Inflow Valve Typefraction kg/s mm
Pipe Wall Material
Pipe Wall Thickness
Pipes
Valves Closem kg/s s
Valve Distance from Top
Valve Excess Flow
Valve Closing Time
Use Ambient Temperature
Pipes
mm mm
Tank Roof Collapse Option
Tank Roof Material
Tank Roof Thickness
Insulation Material
Insulation Thickness
Pipes Tank definition
Tank Type Tank Heights m
Duration for fixed duration scenario
Calculate Discharge
Supply Discharge Coefficient
Tank definition Location Data
Tank Width Tank Length Tank Diameter Status of Bund Bund Aream m m m2
Fireball Radiation
Calculate Dose Calculate Probitbar
Use Burst Pressure
Burst Pressure - gauge
Calculate Lethality
Fireball Radiation
Intensity Levels Probit Levels Dose Levels Lethality LevelskW/m2
Mass Modification Factor
Fireball Radiation Averaging Times
Averaging Timess ppm
Fireball Maximum Exposure Duration
Concentration of Interest
Averaging time associated with Concentration
Supply a user defined averaging time
Averaging Times Modelling
Jet Fire Methods
User defined averaging time
Use ERPG averaging time
Use IDLH averaging time
Use STEL averaging time
Modelling Dispersion scope
m m
Late Ignition Location
Location of Late Ignition
Explosion Method
Distances for Radiation Modeling and Dispersion Scope
Discharge Parameters
/m /m
Excess Flow Valve velocity head losses
Non-Return Valve velocity head losses
Shut-Off Valve velocity head losses
Frequency of bends in long pipes
Frequency of couplings in long pipes
Discharge Parameters Defaults
Line length Pipe roughness Air changes Elevation/m m mm /hr m
Frequency of junctions in long pipes
Defaults Geometry
Shape DimensionTank Roof Failure Model Effects
Handling of droplets
Indoor mass modification factor
Geometry Bund
System East North Bund Heightm m m
Type of Bund Surface
Bund
mm m2/s kJ/m.s.degK
Bund Failure Modeling
Pool minimum thickness
Surface thermal diffusivity
Surface roughness factor
Surface thermal conductivity
Building Data
Building Height Building Length Building Width Vent Flowratem m m m3/hr
Location of release
Building Data
Exhaust Diameter Vent Location Building Angle Wind Anglem deg deg
Type of Ventilation
Building Data Dispersion
Chimney Heightm m deg
Chimney Diameter
Building Wake Effect
Outdoor Release Direction
Outdoor Release Angle
Flammable Mass Toxic parameters
/hr
Explosion Mass Modification Factor
Indoor Calculations
Wind Dependent Exchange Rate
Building Exchange Rate
Toxic parameters TNT
Tail Times fraction fraction %
Set averaging time equal to exposure time
Cut-off fraction of toxic load for exposure time calculation
Cut-off concentration for exposure time calculations
Explosion efficiency
TNT Multi-Energy Explosion Data
Use FractionsAir or Ground burst
Use Unconfined Strength
Unconfined Strength
Source 1 (Source in Use)
Multi-Energy Explosion Data
Source 2 (Source in Use)
Source 3 (Source in Use)
Source 4 (Source in Use)
Source 5 (Source in Use)
Source 6 (Source in Use)
Multi-Energy Explosion Data
Source 7 (Source in Use)
Source 1 (Strength)
Source 2 (Strength)
Source 3 (Strength)
Source 4 (Strength)
Multi-Energy Explosion Data
m3 m3
Source 5 (Strength)
Source 6 (Strength)
Source 7 (Strength)
Source 1 (Volume)
Source 2 (Volume)
Multi-Energy Explosion Data
m3 m3 m3 m3 m3
Source 3 (Volume)
Source 4 (Volume)
Source 5 (Volume)
Source 6 (Volume)
Source 7 (Volume)
Multi-Energy Explosion Data
fraction fraction fraction fraction fraction
Source 1 (Fraction)
Source 2 (Fraction)
Source 3 (Fraction)
Source 4 (Fraction)
Source 5 (Fraction)
Multi-Energy Explosion Data Baker-Strehlow Explosion Data
fraction fraction
Source 6 (Fraction)
Source 7 (Fraction)
BS Ground Reflection Factor
BS Material Reactivity
BS Flame Expansion
Baker-Strehlow Explosion Data Fireball parameters
Mach Numberm3
BS Obstacle Density
BS Confined Volume
Treatment of Mach Number
Calculation method for fireball
Fireball parameters Jet Fire Radiation
Calculate Dose Calculate Probit Intensity LevelsdegC kW/m2
TNO model flame temperature
Calculate Lethality
Jet Fire Radiation
Probit Levels Dose Levels Lethality Levelss
Rate Modification Factor
Jet Fire Maximum Exposure Duration
Jet Fire Parameters
Crosswind Angle Correlationdeg kW/m2
Horizontal Options
Emissivity Method
Flame Emissive Power
Jet Fire Parameters Pool Fire Radiation
Calculate Dose Calculate Probit Intensity Levelsfraction kW/m2
Emissivity Fraction
Calculate Lethality
Pool Fire Radiation
Dose Levels Probit Levels Lethality Levelsfraction s
Radiative fraction for general fires
MaxExposureDuration
Material
Use Study Folder NameType of Risk Effects to Model
Discharge Material
Material
Temperature Mass InventorydegC bar kg fraction
Storage Pressure - gauge
Specified conditions
LiquidFraction - Molar
Material Discharge
Material to Track Hole Diameter Internal Diametermm mm
Phase to be Released - Leaks, Lines, and Ruptures
Discharge Coefficient
Discharge Model selection Pipes
Tank Head Scenario Type Pump Headm m s
Duration for fixed duration scenario
Pipes Location Data Discharge Parameters Phase to be released - Relief valve and bursting disc
Supply Discharge Coefficient
Ignore Fireball Risks - Eg. if a mounded tank
Excess Flow Valve velocity head losses
Discharge Parameters
/m /m /m
Non-Return Valve velocity head losses
Shut-Off Valve velocity head losses
Frequency of bends in long pipes
Frequency of couplings in long pipes
Frequency of junctions in long pipes
Defaults Multicomponent
Line length Pipe roughness Elevationm mm m
Atmospheric Expansion Method
Flashing in the orifice
Multicomponent
/m /m /m
Mechanism for forcing droplet breakup - Inst.
Mechanism for forcing droplet breakup - Cont
Frequency of Excess Flow Valves
Frequency of Non-Return Valves
Frequency of Shut-Off Valves
Dispersion Fireball Radiation
deg bar
Multicomponent aerosol behaviour
Outdoor Release Direction
Outdoor Release Angle
Use Burst Pressure
Burst Pressure - gauge
Fireball Radiation
Calculate Dose Calculate Probit Intensity Levels Probit LevelskW/m2
Calculate Lethality
Fireball Radiation Averaging Times
Dose Levels Lethality Levelss ppm
Mass Modification Factor
Fireball Maximum Exposure Duration
Concentration of Interest
Averaging Times
s
Averaging time associated with Concentration
Supply a user defined averaging time
User defined averaging time
Use ERPG averaging time
Use IDLH averaging time
Averaging Times Modelling
Jet Fire Methodm
Use STEL averaging time
Model Risk Effects for Vertical Jet Fires
Late Ignition Location
Location of Late Ignition
Modelling Dispersion scope
Distance1 Distance2 Distance3m m m
Explosion Method
Flammable Mass Jet Fire Radiation
Calculate Dose Calculate ProbitExplosion Mass Modification Factor
Calculate Lethality
Jet Fire Radiation
Intensity Levels Probit Levels Dose Levels Lethality LevelskW/m2
Rate Modification Factor
Jet Fire Radiation Jet Fire Parameters
Crosswind Angle Correlations deg
Jet Fire Maximum Exposure Duration
Horizontal Options
Emissivity Method
Jet Fire Parameters Fireball parameters Toxic parameters
kW/m2 fraction degC
Flame Emissive Power
Emissivity Fraction
Calculation method for fireball
TNO model flame temperature
Indoor Calculations
Toxic parameters
Tail Time/hr s fraction
Wind Dependent Exchange Rate
Building Exchange Rate
Set averaging time equal to exposure time
Cut-off fraction of toxic load for exposure time calculation
Toxic parameters Geometry
Shape Dimension System Eastfraction m
Cut-off concentration for exposure time calculations
Geometry Baker-Strehlow Explosion Data
Northm
BS Ground Reflection Factor
BS Material Reactivity
BS Flame Expansion
BS Obstacle Density
Baker-Strehlow Explosion Data Multi-Energy Explosion Data
Mach Numberm3
BS Confined Volume
Treatment of Mach Number
Use Unconfined Strength
Unconfined Strength
Multi-Energy Explosion Data
Use FractionsSource 1 (Source in Use)
Source 2 (Source in Use)
Source 3 (Source in Use)
Source 4 (Source in Use)
Multi-Energy Explosion Data
Source 5 (Source in Use)
Source 6 (Source in Use)
Source 7 (Source in Use)
Source 1 (Strength)
Source 2 (Strength)
Multi-Energy Explosion Data
Source 3 (Strength)
Source 4 (Strength)
Source 5 (Strength)
Source 6 (Strength)
Source 7 (Strength)
Multi-Energy Explosion Data
m3 m3 m3 m3 m3
Source 1 (Volume)
Source 2 (Volume)
Source 3 (Volume)
Source 4 (Volume)
Source 5 (Volume)
Multi-Energy Explosion Data
m3 m3 fraction fraction fraction
Source 6 (Volume)
Source 7 (Volume)
Source 1 (Fraction)
Source 2 (Fraction)
Source 3 (Fraction)
Multi-Energy Explosion Data Pool Fire Radiation
Calculate Dosefraction fraction fraction fraction
Source 4 (Fraction)
Source 5 (Fraction)
Source 6 (Fraction)
Source 7 (Fraction)
Pool Fire Radiation
Calculate Probit Intensity Levels Dose Levels Probit LevelskW/m2
Calculate Lethality
Pool Fire Radiation TNT
Lethality Levelsfraction s %
Radiative fraction for general fires
MaxExposureDuration
Explosion efficiency
Air or Ground burst
Material
Use Study Folder Namekg
Discharge Material
Mass Inventory of material to Disperse
Material Fireball Radiation
Material to Track Calculate Dose Calculate Probitbar
Use Burst Pressure
Burst Pressure - gauge
Fireball Radiation
Intensity Levels Probit Levels Dose Levels Lethality LevelskW/m2
Calculate Lethality
Fireball Radiation Scenario
Release Type Fluid Phases
Mass Modification Factor
Fireball Maximum Exposure Duration
Number of Release Segments
Scenario
Droplet Diameter Liquid Fractionm/s um s degC fraction
Discharge Velocity
Duration of Discharge
Final Temperature
Scenario Averaging Times
Release Rate Pool Radiikg/s m kg/s kg ppm
Pre-Dilution Air Rates
Pre-Dilution Air Masses
Concentration of Interest
Averaging Times
s
Averaging time associated with Concentration
Supply a user defined averaging time
User defined averaging time
Use ERPG averaging time
Use IDLH averaging time
Averaging Times Modelling
Jet Fire Methodm
Use STEL averaging time
Late Ignition Location
Location of Late Ignition
Explosion Method
Dispersion scope Location Data Fireball parameters
Status of Bund Bund Aream m2
Distances for Radiation Modeling and Dispersion Scope
Calculation method for fireball
Fireball parameters Building Data
Building Height Building Length Building WidthdegC m m m
TNO model flame temperature
Location of release
Building Data
Vent Flowrate Exhaust Diameter Vent Location Building Anglem3/hr m deg
Type of Ventilation
Building Data Dispersion
Wind Angle Chimney Heightdeg m m
Chimney Diameter
Building Wake Effect
Outdoor Release Direction
Dispersion Defaults
Air changes Elevationdeg /hr m
Outdoor Release Angle
Handling of droplets
Indoor mass modification factor
Flammable Mass Jet Fire Radiation
Calculate Dose Calculate ProbitExplosion Mass Modification Factor
Calculate Lethality
Jet Fire Radiation
Intensity Levels Probit Levels Dose Levels Lethality LevelskW/m2
Rate Modification Factor
Jet Fire Radiation Jet Fire Parameters
Crosswind Angle Correlations deg
Jet Fire Maximum Exposure Duration
Horizontal Options
Emissivity Method
Jet Fire Parameters Geometry
Shape Dimension SystemkW/m2 fraction
Flame Emissive Power
Emissivity Fraction
Geometry Pool Fire Radiation
East North Calculate Dose Calculate Probitm m
Calculate Lethality
Pool Fire Radiation
Intensity Levels Dose Levels Probit Levels Lethality LevelskW/m2 fraction
Radiative fraction for general fires
Pool Fire Radiation Bund
Bund Heights m mm
MaxExposureDuration
Type of Bund Surface
Bund Failure Modeling
Pool minimum thickness
Bund Toxic parameters
m2/s kJ/m.s.degK
Surface thermal diffusivity
Surface roughness factor
Surface thermal conductivity
Indoor Calculations
Wind Dependent Exchange Rate
Toxic parameters
Tail Time/hr s fraction fraction
Building Exchange Rate
Set averaging time equal to exposure time
Cut-off fraction of toxic load for exposure time calculation
Cut-off concentration for exposure time calculations
TNT Multi-Energy Explosion Data
Use Fractions%
Explosion efficiency
Air or Ground burst
Use Unconfined Strength
Unconfined Strength
Multi-Energy Explosion Data
Source 1 (Source in Use)
Source 2 (Source in Use)
Source 3 (Source in Use)
Source 4 (Source in Use)
Source 5 (Source in Use)
Multi-Energy Explosion Data
Source 6 (Source in Use)
Source 7 (Source in Use)
Source 1 (Strength)
Source 2 (Strength)
Source 3 (Strength)
Multi-Energy Explosion Data
m3
Source 4 (Strength)
Source 5 (Strength)
Source 6 (Strength)
Source 7 (Strength)
Source 1 (Volume)
Multi-Energy Explosion Data
m3 m3 m3 m3 m3
Source 2 (Volume)
Source 3 (Volume)
Source 4 (Volume)
Source 5 (Volume)
Source 6 (Volume)
Multi-Energy Explosion Data
m3 fraction fraction fraction fraction
Source 7 (Volume)
Source 1 (Fraction)
Source 2 (Fraction)
Source 3 (Fraction)
Source 4 (Fraction)
Multi-Energy Explosion Data Baker-Strehlow Explosion Data
fraction fraction fraction
Source 5 (Fraction)
Source 6 (Fraction)
Source 7 (Fraction)
BS Ground Reflection Factor
BS Material Reactivity
Baker-Strehlow Explosion Data
Mach Numberm3
BS Flame Expansion
BS Obstacle Density
BS Confined Volume
Treatment of Mach Number
Material
Use Study Folder Name Elevationm
Discharge Material
Flame Shape
Pool Diameter Flame Length Flame Angle Base Surfacem m deg
Use Flame Shape Correlation
Flame Shape Pool Fire Radiation
Intensity LevelskW/m2 kW/m2 s
Emissive power calculation
Flame Emissive Power
Bund Has Overspilled
MaxExposureDuration
Radiation at a Point
m m m deg
Radiation at a Point
Radiation at a Point: Downwind Distance
Radiation at a Point: Crosswind Distance
Radiation at a Point: Height above Origin
Radiation at a Point: Inclination from vertical
Radiation at a Point Radiation Distance
Inclination Given Orientation Givendeg m
Radiation at a Point: Orientation about the Z Axis
Radiation vs Distance
Radiation vs Distance: Maximum Distance
Radiation Distance
Inclination Givendeg m deg deg
Radiation vs Distance: Angle from Wind
Radiation vs Distance: Height above Origin
Radiation vs Distance: Inclination from Vertical
Radiation vs Distance: Orientation about Z Axis
Radiation Distance Radiation Ellipse
Orientation Given Radiation EllipsekW/m2 %
Radiation Ellipse Option
Radiation Ellipse: Incident Radiation
Radiation Ellipse: Lethality Level
Radiation Ellipse Radiation Contour Data
Inclination Givendeg m
Radiation Ellipse: View Factor
Radiation Ellipse: Inclination from Vertical
Radiation Contours
Origin of Plane - X Direction
Radiation Contour Data
Point 2 X Point 2 Y Point 2 Zm m m m m
Origin of Plane - Y Direction
Origin of Plane - Z Direction
Radiation Contour Data Geometry
Point 3 X Point 3 Y Point 3 Z Shape Dimensionm m m
Geometry
System East Northm m
Material
Use Study Folder Namebar
Supply Burst Pressure - gauge
Burst Pressure - gauge
Material Fireball Shape
Released MasskW/m2 kg
Discharge Material
Use Shape Correlation
Supply Flame Emissive Power
Flame Emissive Power
Fireball Shape Fireball Radiation
Fireball Radius Fireball Duration Intensity Levelsfraction m s kW/m2
Vapour Fraction (mass)
Mass Modification Factor
Fireball Radiation Fireball parameters Radiation at a Point
s degC m
Fireball Maximum Exposure Duration
Calculation method for fireball
TNO model flame temperature
Radiation at a Point
Radiation at a Point: Downwind Distance
Radiation at a Point
Inclination Givenm m deg deg
Radiation at a Point: Crosswind Distance
Radiation at a Point: Height above Origin
Radiation at a Point: Inclination from vertical
Radiation at a Point: Orientation about the Z Axis
Radiation at a Point Radiation Distance
Orientation Givenm deg m
Radiation vs Distance
Radiation vs Distance: Maximum Distance
Radiation vs Distance: Angle from Wind
Radiation vs Distance: Height above Origin
Radiation Distance Radiation Ellipse
Inclination Given Orientation Given Radiation Ellipsedeg deg
Radiation vs Distance: Inclination from Vertical
Radiation vs Distance: Orientation about Z Axis
Radiation Ellipse
kW/m2 % deg
Radiation Ellipse Option
Radiation Ellipse: Incident Radiation
Radiation Ellipse: Lethality Level
Radiation Ellipse: View Factor
Radiation Ellipse: Inclination from Vertical
Radiation Ellipse Radiation Contour Data
Inclination Givenm m m
Radiation Contours
Origin of Plane - X Direction
Origin of Plane - Y Direction
Origin of Plane - Z Direction
Radiation Contour Data
Point 2 X Point 2 Y Point 2 Z Point 3 X Point 3 Ym m m m m
Radiation Contour Data Geometry
Point 3 Z Shape Dimension System Eastm m
Geometry
Northm
Warehouse Materials
Use Study Folder Name Stored Masskg
Warehouse Material Name
Warehouse Materials Building
Active Mass Building Height Building Width Building Lengthfraction m m m
Building Wake Effect
Building Fire Scenarios
Building Angle Warehouse Areadeg m2 m
Warehouse is Part of a Larger Building
Warehouse Height
Use PGS-15 Scenarios
Fire Scenarios
Fire-Fighting System
Method of Setting Likelihood of Doors being Open
ADR Class 3 Storage Type
ADR Class 3 Reaction Rate Calculation
ADR Class 3 Mass Fraction
Fire Scenarios Geometry
Shape Dimension System Eastkg/m2.s m
ADR Class 3 Specified Reaction Rate
Geometry Averaging Times
Northm ppm s
Concentration of Interest
Averaging time associated with Concentration
Supply a user defined averaging time
User defined averaging time
Averaging Times Dispersion scope
m
Use ERPG averaging time
Use IDLH averaging time
Use STEL averaging time
Distances for Radiation Modeling and Dispersion Scope
User Defined Scenarios
Use Study Folder Warehouse Name Fire Surface Aream2
User Defined Scenarios
Air Changes Fire Duration Probability/hr s fraction
Ventilation Rate Option
Material
Use Study Folder Name Elevation Temperaturem degC
Material Flame Shape
Jet Flame Angle Jet Directionbar deg
Storage Pressure - gauge
Discharge Material
Jet Fire Calculation Method
Flame Shape
Jet Flame Length Jet Velocitym m/s
Calculate Jet Flame Length
Calculate Jet Expanded Diameter
Calculate Jet Velocity
Flame Shape Discharge
Type of Vesselm kg/s degC fraction
Jet Diameter after Expansion
Jet Fire Release Rate
Jet Fire Temperature after Expansion
Jet Fire Liquid Fraction
Discharge Pipes Jet Fire Radiation
Hole Diameter Intensity Levelsmm kW/m2 s
Phase to be Released
Calculate Discharge
Jet Fire Maximum Exposure Duration
Jet Fire Parameters
Crosswind Angle Correlationdeg kW/m2
Horizontal Options
Emissivity Method
Flame Emissive Power
Jet Fire Parameters Radiation at a Point
fraction m m m
Emissivity Fraction
Radiation at a Point
Radiation at a Point: Downwind Distance
Radiation at a Point: Crosswind Distance
Radiation at a Point: Height above Origin
Radiation at a Point Radiation Distance
Inclination Given Orientation Givendeg deg
Radiation at a Point: Inclination from vertical
Radiation at a Point: Orientation about the Z Axis
Radiation vs Distance
Radiation Distance
m deg m deg deg
Radiation vs Distance: Maximum Distance
Radiation vs Distance: Angle from Wind
Radiation vs Distance: Height above Origin
Radiation vs Distance: Inclination from Vertical
Radiation vs Distance: Orientation about Z Axis
Radiation Distance Radiation Ellipse
Inclination Given Orientation Given Radiation EllipsekW/m2
Radiation Ellipse Option
Radiation Ellipse: Incident Radiation
Radiation Ellipse Radiation Contour Data
Inclination Given% deg
Radiation Ellipse: Lethality Level
Radiation Ellipse: View Factor
Radiation Ellipse: Inclination from Vertical
Radiation Contours
Radiation Contour Data
Point 2 X Point 2 Ym m m m m
Origin of Plane - X Direction
Origin of Plane - Y Direction
Origin of Plane - Z Direction
Radiation Contour Data Geometry
Point 2 Z Point 3 X Point 3 Y Point 3 Z Shapem m m m
Geometry
Dimension System East Northm m
Pool Vaporisation
Use Study Folder Name Dike Diameterm
Material Modeled
Type of Spill Spill Duration Spill Rates kg/s
Modeled or user defined pool
Discharge Material
Modeled User Defined
Spill Mass Spill Temperature Status of Dike Radiuskg degC s m
Maximum Time of Interest
User Defined Bund Geometry
Vapour Rate Shapekg/m2.s s degC
User defined duration
User defined temperature
Type of Bund Surface
Geometry
Dimension System East Northm m
Explosion Data
Use Study Folder Name Flammable Masskg
Distances Material Geometry
Shapem m m
Minimum Distance
Maximum Distance
Distance Step Size
Discharge Material
Geometry TNT
Dimension System East Northm m %
Explosion efficiency
TNT
Air or Ground burst
Explosion Data
Use Study Folder Name Flammable Masskg
Distances Material Multi-Energy Explosion Data
m m m
Minimum Distance
Maximum Distance
Distance Step Size
Discharge Material
Use Unconfined Strength
Multi-Energy Explosion Data
Use FractionsUnconfined Strength
Source 1 (Source in Use)
Source 2 (Source in Use)
Source 3 (Source in Use)
Multi-Energy Explosion Data
Source 4 (Source in Use)
Source 5 (Source in Use)
Source 6 (Source in Use)
Source 7 (Source in Use)
Source 1 (Strength)
Multi-Energy Explosion Data
Source 2 (Strength)
Source 3 (Strength)
Source 4 (Strength)
Source 5 (Strength)
Source 6 (Strength)
Multi-Energy Explosion Data
m3 m3 m3 m3
Source 7 (Strength)
Source 1 (Volume)
Source 2 (Volume)
Source 3 (Volume)
Source 4 (Volume)
Multi-Energy Explosion Data
m3 m3 m3 fraction fraction
Source 5 (Volume)
Source 6 (Volume)
Source 7 (Volume)
Source 1 (Fraction)
Source 2 (Fraction)
Multi-Energy Explosion Data
fraction fraction fraction fraction fraction
Source 3 (Fraction)
Source 4 (Fraction)
Source 5 (Fraction)
Source 6 (Fraction)
Source 7 (Fraction)
Geometry
Shape Dimension System East Northm m
Explosion Data
Use Study Folder Name Flammable Masskg
Distances Material Baker-Strehlow Explosion Data
m m m
Minimum Distance
Maximum Distance
Distance Step Size
Discharge Material
BS Ground Reflection Factor
Baker-Strehlow Explosion Data
m3
BS Material Reactivity
BS Flame Expansion
BS Obstacle Density
BS Confined Volume
Treatment of Mach Number
Baker-Strehlow Explosion Data Geometry
Mach Number Shape Dimension System Eastm
Geometry
Northm
Material
Use Study Folder Name Mass Inventorykg
Inventory specification
Material
Volume Inventory Temperature Pressure - gaugem3 degC bar
First Thermodynamic Specification
Second Thermodynamic Specification
Material Distances
Vessel Shape Flammable Masskg m
Discharge Material
Max Distance Option
Maximum Distance
Distances Geometry
Liquid Fraction Shape Dimension Systemm fraction
Distance Step Size
Geometry Blast
East Northm m m
Ground Reflection
Ideal Gas Modeling
Minimum Distance
Blast
Number of Distance Points
Weather Data Atmospheric parameters
Use Weather Folder Name Wind Speed Pasquill Stabilitym/s degC
Atmospheric Temperature
Atmospheric parameters
Relative Humidityfraction kW/m2 m m m
Solar Radiation Flux
Mixing Layer Height for Pasquil Stability A
Mixing Layer Height for Pasquil Stability A/B
Mixing Layer Height for Pasquil Stability B
Atmospheric parameters
m m m m m
Mixing Layer Height for Pasquil Stability B/C
Mixing Layer Height for Pasquil Stability C
Mixing Layer Height for Pasquil Stability C/D
Mixing Layer Height for Pasquil Stability D
Mixing Layer Height for Pasquil Stability E
Atmospheric parameters Substrate data
Tail Time Surface Typem m /hr s
Mixing Layer Height for Pasquil Stability F
Mixing Layer Height for Pasquil Stability G
Building Exchange Rate
Substrate data
Parameter Lengthmm degC degC
Surface Roughness
Surface Temperature for Dispersion Calculations
Surface Temperature for Pool Calculations
Use System Material Set Mixture Components
CompositionName Pure Mass Mole
Composition (Number of Atoms)
Use System Material Set Mixture Carbon
Composition (Number of Atoms)
Hydrogen Oxygen Nitrogen Sulphur Chlorine
Composition (Number of Atoms)
Phosphorus Manganese Zinc Tin Bromine
Composition (Number of Atoms) Toxic Properties
Iodine Fluorine Molecular Weight High ToxicitySupply Molecular Weight
Toxic Properties
High Flash PointGenerates Dioxins
External Connection
Use Name Connection Type Location Connection Info Description
Feature Class
Use Name Table NameExternal Connection
Raster Image
Use Raster Image Set Folder Name Placement Mode Path
Raster Image Geometry
Shape Dimension System Eastm
Coordinate System File
Geometry
North Width Length Rotationm m m deg
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