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ERDC’s Coastal Storm
Modeling System
(CSTORM-MS)
Chris Massey, PhD
See instructions for customizing these images on slide 3.
Research Mathematician
Coastal & Hydraulics Lab
26th Annual National
Conference on Beach
Preservation Technology
February 13-15, 2013
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ERDC’s Coastal Storm-Modeling System
(ERDC CSTORM-MS)
Next Generation Workflow
Not just
hurricanes and
not just in the
Gulf of Mexico.
Expandable and
upgradeable system.
Application of high-resolution, highly skilled numerical models in
a tightly integrated modeling system with user friendly interfaces
Provides for a robust, standardized approach to establishing the risk
of coastal communities to future occurrences of storm events.
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An Example Storm Surge
Problem
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Morganza to the Gulf of
Mexico Feasibility Study
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Storm 314 Without Project With Project
Sea L
eve
l R
ise 0
.35 m
Exis
tin
g W
ate
r L
evel
Sea L
eve
l R
ise 0
.35 m
Exis
tin
g W
ate
r L
evel
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Example Model Domains
United States
Gulf of Mexico
Atlantic Ocean
ADCIRC grid boundaries are shown in black
PBL/WAM grid boundaries are shown in red
STWAVE grid boundaries are shown in blue
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SMS GUI’s
• New GUI for Project Overview
• New GUI for MORPHOS PBL Cyclone Model
• New GUI for CSTORM Coupled Models
• Updated GUI for AdH
• New GUI for WAM Wave Model
•Updated GUI for STWAVE
• Updated GUI for ADCIRC
Through the SMS GUI’s users can setup and
execute models as well as visualize model results.
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ADCIRC Coastal Circulation
and Storm Surge Model
• An unstructured finite
element hydrodynamics
model
• 2D and 3D simulations
• Wetting/Drying algorithm
allows for storm surge
inundation over previously
dry land
• Highly portable code
SMS GUI for ADCIRC
http://adcirc.org
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Example ADCIRC
Unstructured Mesh
Mesh resolution
From 28 km down to 23 m
Approximately
98% of all
elements are
in the study
area.
The mesh consists of
approximately 5.4 million
elements and 2.7 million
nodes.
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SL15 Mesh Resolution
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SL15 Mesh Resolution
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SL15 Mesh Resolution
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SL15 Mesh Resolution
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SMS GUI for WAM
• Create and visualize
WAM grids and model
results
• Setup input/control files
• Execute WAM Close-up view
of WAM Grid
WAM Controls
New to the SMS
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STWAVE Version 6.0
STWAVE is a steady-state finite
difference model based on the
wave action balance equation.
The model is used to compute wave
transformation (refraction, shoaling,
and breaking) and wind-wave
generation.
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Some features of the full-plane model include:
Wave transformation and generation on the full 360-deg plane.
Option for spatially variable winds and surge.
Option for spatially constant or spatially variable bottom friction.
Option for one-dimensional wave transformation on lateral boundaries.
SMS GUI for STWAVE
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SMS GUI for Cyclone
Models • Setup and run the MORPHOS-PBL
Cyclone Wind Model*
• Import storms from HURDAT
Easily create perturbations for storm track/characteristic
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*Updated version of TC96
Synthetic storm profile generation routine
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Circulation Wave
Coupling • One unstructured finite element circulation mesh
– A single instance of ADCIRC/AdH
• One or more structured wave grids
– Multiple instances of STWAVE
• Half-Plane • Full-Plane
STWAVE Snaps
CIRC
Timeline
Need to be able to
synchronize both time and
spatial frames of reference.
CIRC WAVES
,x y
, ,u v
Information to Exchange
For consistency use the
same winds and bathymetry.
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CIRC Mesh
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Example SMS GUI’s for
CSTORM-MS
Fine level specification of overlapping regions.
Project summary views
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Computational Considerations
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ADCIRC+STWAVE
Max Surge (m)
ADCIRC+UnSwan
Max Surge (m)
Models CPUs Time
(min)
Total Time
(min)
ADC+STWAVE 256 105 26880+780
ADC+UnSwan 256 197 50432
STWAVE
650k Nodes
2.5 Day Simulation
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What’s New in
Spiral 2
AdH coupling with STWAVE
SEDLIB enhanced with C2SHORE
Time varying bathymetry added to
ADCIRC & STWAVE.
Time varying ice concentration fields
added to ADCIRC, STWAVE, and WAM.
FEMA-LRE Lake Michigan
Storm Water Level Modeling
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AdH
Shallow Water
Equations
Computational Engine
(FE utilities, preconditioners,
solvers, I/O to xMS GUIs)
Unsaturated
Groundwater
Equations
Navier-Stokes
Equations
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Features of
ADH Shallow Water Adaption
Part of System-wide program
Links to CRREL, HEC, NFS
Internal links to groundwater
Supercritical and subcritical
flow
Vessels
Static lids (culverts, floating
guidewalls, . . .)
Friction Library (vegetative,
Manning’s, ice)
Linking to WQ library and ICM
Structures (weirs, flapgates, …)
Bendway correction
Baroclinic
Coupled sediment transport
(sands, clays, mixed)
Wave effects on sediment
Portable – PC to distributed
memory HPC
Dam failure, levee over-topping
(example Ark-White-Miss River)
Local Mass Conservation
3D companion for 2D shallow
water
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ADH - Colombia River Example
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Philosophy: Efficient and Robust
Model Components • Quasi-3D Shallow Water Hydrodynamics • Probabilistic Representation of Sediment Transport • Includes both Wave and Current Transport • Bed load and Suspended load
Advances in Morphology Response
Ship
Isla
nd L
idar
Pre-Katrina
Post-Katrina
Pre-Katrina Post-Katrina Model vs Measured
Modeled
Mississippi Coastal
Improvement
Program (MsCIP)
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CSTORM-MS
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Next Generation Workflow
• Expandable
• Upgradeable
• Multi-Scale
• Multi-platform
PC to HPC
• More than Hurricanes
• Relocatable to your area
Thank You.
Spiral 2