• Publications
• Talks/Tutorials
• SLOSH Model
• SLOSH Display Program and Web Page

Publications

• Definitive publication on SLOSH:

  Jelesnianski, C. P., J. Chen, and W. A. Shaffer, 1992:  SLOSH:  Sea, lake, and
      overland surges from hurricanes.  NOAA Technical Report NWS 48, National
      Oceanic and Atmospheric Administration, U. S. Department of Commerce,
      71 pp. (Scanning courtesy of NOAA's NOS's Coastal Service's Center)
  

• How NWS uses SLOSH (including p-surge, et-surge, and MEOW/MOMs):

  Glahn, B., A. Taylor, N. Kurkowski, and W. A. Shaffer, 2009:  The Role of the
      SLOSH Model in National Weather Service Storm Surge Forecasting.  National
      Weather Digest, Volume 33, Number 1, 3-14.
      (larger but single column copy)
  

• Some more information on the p-surge model:

  Taylor, A., and Glahn, B., 2008:  Probabilistic guidance for hurricane storm
      surge.  Preprints, 19th Conference on Probability and Statistics, New
      Orleans, LA, Amer. Meteor. Soc., 7.4.
  

• Some more information on the et-surge model:

  Kim, S.-C., J. Chen, and W. A. Shaffer, 1996:  An operational Forecast Model
      for Extratropical Storm Surges along the U.S. East Coast.  Preprints,
      Conference on Coastal Oceanic and Atmospheric Prediction, Atlanta, Georgia,
      Amer. Meteor. Soc., 281-286.
  

Talks

• Storm Surge 101 (ppt 9.6 Megs) (talk provided to Storm Surge workshop in Mobile AL, May 2011)


• SLOSH Display Program 101 (ppt 35.6 Megs) (talk provided to Storm Surge workshop in Mobile AL, May 2011)


• SLOSH Display Program to ESRI Arc GIS 101 (pptx 29.6 Megs) (Created June 2011)


• Storm surge at MDL (SLOSH, psurge, ETSS) (ppt 28 Megs) (Created July 2011)

SLOSH Model

The SLOSH model computes storm surge heights from tropical cyclones using pressure, size, forward speed, and track data to create a model of the wind field which pushes the water around. (A portion of the surge is caused by the low pressure at the center of the hurricane, but this effect is small in comparison to the wind effects.) A sample output can be seen here for Hurricane Hugo.

SLOSH has been applied to the entire U. S. East coast and Gulf of Mexico coastlines. In addition coverage extends to Hawaii, Guam, Puerto Rico, and the U. S. Virgin Islands (coverage). An example of a typical compuational domain, or basin, is the Biloxi, Mississippi basin.

Based on tide gage observations and high water marks (HWM) measured after past hurricanes, the SLOSH model is accurate to within +/- 20%. However, there is considerable error in the HWM data. Using higher quality, "excellent" HWMs from Katrina, SLOSH accuracy approached +/- 5%.

The SLOSH model consists of a set of equations derived from the Newtonian equations of motion (shallow water equations) and the continuity equation applied to a rotating fluid with a free surface. The equations are integrated from the sea floor to the surface. The coastline is represented as a physical boundary. Subgrid-scale water features (cuts, chokes, sills and channels), and vertical obstructions (levees, roads, spoil banks, etc.) are parameterized. The model accounts for astronomical tides by specifying an initial tide level, but does not include rainfall amounts, riverflow, or wind-driven waves.

At the time emergency managers must make an evacuation descision, errors in the hurricane's track and characteristics are large. To aid emergency managers in planning for hurricanes, the potential surge for an area is computed. This is done by running SLOSH with hypothetical hurricanes with various landfall directions and locations, Saffir-Simpson categories, forward speeds, sizes, and tide levels. Each individual run generates an envelope of high water containing the maximum value a grid cell attains during the run. These envelopes are then combined by taking the maximum by category, speed and direction to create MEOWs (Maximum Envelope Of Water), or simply by category to create MOMs (Maximum Of MEOWs). The MEOWs and MOMs form the basis of the "hazard analysis" portion of coastal hurricane evacuation plans.

SLOSH Display Program and Web Page

The SLOSH Display Program is intended to display the results of the SLOSH model in order to assist Emergency Managers plan for evacuations, display the latest NHC real-time runs and help them educate decision makers. It was built for the use of trained Emergency Managers, FEMA personnel, and NWS forecasters.

Training in the use of SLOSH is provided in the Training PDF and the Training PPT.

To access the SLOSH Display Web Page and download the program, you will need a username and password, which can be obtained at this website. After you have the user name and password, you can follow this link.

US Dept of Commerce     National Oceanic and Atmospheric Administration     National Weather Service     Meteorlogical Development Lab: Evaluation Branch	Author arthur.taylor@noaa.gov 1325 East West Highway Silver Spring, MD 20910 Page last Modified: August 16, 2011.	Disclaimer Privacy Policy