1-Day of 2-D
How Are The Results Of Hydraulic Models Used To Manage Floodplain Development Under The NFIP?
Eric Simmons, FEMA Region IX
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Idealized Schematic of Floodplain Mapping
Final Flood Maps
Digital Base Mapping
Flood Data /
Database
Hydraulic Modeling
Streamflow & Meterological
Data
Flood FlowsHydrologic Analysis
+ =
Field Data & Surveys
Topographic Data & Ground Elevations
-
-
Initial Data Initial Outputs
Input Analyses Final Products
Floodplain Boundarie
s
Floodway Stations
Water Surface
Elevations
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Considerations For The NFIP Model Results Are Used For Floodplain
Management:• Flood hazard areas• Flood elevations• Regulatory floodways
Differences between 1-D and 2-D Computer Programs?
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Considerations For The NFIP Model Results Are Used For Floodplain
Management:• Flood hazard areas• Flood elevations• Regulatory floodways
Differences between 1-D and 2-D Computer Programs?• Momentum, velocity averaging, vertical variations, etc.• Riverine, coastal and alluvial floodplains• Cross sections (with prescribed flow direction) vs. nodes• Steady vs. unsteady (peak discharge vs. hydrograph)• Ability to perform automated encroachment analysis• Model setup time, costs, equipment, run times, industry
expertise, stakeholder acceptance, etc.• Cross section spacing and mesh resolution
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Considerations For The NFIP Model Results Are Used For Floodplain
Management:• Flood hazard areas• Flood elevations• Regulatory floodways
Differences between 1-D and 2-D Computer Programs?• Momentum, velocity averaging, vertical variations, etc.• Riverine, coastal and alluvial floodplains• Cross sections (with prescribed flow direction) vs. nodes• Steady vs. unsteady (peak discharge vs. hydrograph)• Ability to perform automated encroachment analysis• Model setup time, costs, equipment, run times, industry
expertise, stakeholder acceptance, etc.• Cross section spacing and mesh resolution
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Advantages of 2-D Computer Programs
Flow Splits Very Wide Floodplain Braided Channels Scour Analysis Sediment and Pollutant Transport Estuary Dynamics Other?
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1-D Model Links: Profile, Baseline & SFHA
1% Annual Chance Water-Surface Elevations (for development/new building and flood insurance purposes) determined from Flood Profile along profile baseline (or table in the FIS)
Flood Insurance Study (FIS) (digital & hard-copy)
Mapped Floodplain (SFHA) on
FIRM Panels(digital &
hard-copy)
● Baseline ► Model ► Flood Profile ► Floodplain.
Hydraulic Model
Hydraulic Baseline in Floodplain
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Floodplain Management Floodplain Management is a Decision Making
Process That Aims to Achieve Wise Use or Nonuse of the Floodplain
With the National Flood Insurance Program over 21,000 communities nationwide have adopted a floodplain management process based on, at least, a Flood Insurance Rate Map
Flood Insurance Rate Maps:• High Hazard Areas (flood zone boundary)• Base Flood Elevations (flood profile & profile baseline) or
Depths• Regulatory Floodways (in riverine areas)
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My Questions For Today• What issues does FEMA face in using 2-D and
unsteady models?
• What underlying assumptions of each model are valid/invalid?
• When do the benefits outweigh costs for another analysis type?
• Should we let a 2-D hydraulic model delineate the mapped floodplain boundaries (or a separate GIS application as typically done with 1-D analyses)?
• How can/should 1% annual chance flood elevations be recorded for individual structures (to the nearest tenth of a foot) using 2-D models?
• Can 2-D programs efficiently model floodways? If not, should NFIP floodplain management and mapping criteria be changed?
• For which analyses should 1-D and 2-D modeling be linked?