Numerical Model for Forecasting Ice Conditions on the Ohio River

A numerical model, RICEOH, for simulating flow and ice conditions in a dendritic river system is developed. The flow computations use a double-sweep algorithm for unsteady shallow water wave equations. The distributions of water temperatures and ice concentration are determined using a Lagrangian-Eu...

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Bibliographic Details
Main Authors: Shen, Hung T., Bjedov, Goranka, Daly, Steven F., Wasantha Lal, A. M.
Other Authors: COLD REGIONS RESEARCH AND ENGINEERING LAB HANOVER NH
Format: Text
Language:English
Published: 1991
Subjects:
Hydrology
Limnology and Potamology
Snow
Ice and Permafrost
*THERMAL PROPERTIES
SIMULATION
STEADY STATE
TEMPERATURE
COMPUTATIONS
DISTRIBUTION
WATER
GROWTH(GENERAL)
THEORY
OHIO
FORECASTING
EQUILIBRIUM(GENERAL)
FINITE DIFFERENCE THEORY
EROSION
ICE
CONCENTRATION(COMPOSITION)
COVERINGS
FLOW
RIVERS
DENDRITIC STRUCTURE
OHIO RIVER
PENNSYLVANIA
MATHEMATICAL MODELS
*ICE FORECASTING
*OHIO RIVER
*MATHEMATICAL MODELS
ICE FORMATION
COMPUTERIZED SIMULATION
HYDRAULICS
COLD REGIONS
ARMY CORPS OF ENGINEERS
Ice
permafrost
Online Access:http://www.dtic.mil/docs/citations/ADA243336
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA243336
Description
Summary:A numerical model, RICEOH, for simulating flow and ice conditions in a dendritic river system is developed. The flow computations use a double-sweep algorithm for unsteady shallow water wave equations. The distributions of water temperatures and ice concentration are determined using a Lagrangian-Eulerian scheme. The formation of an ice cover is modeled using existing equilibrium ice jam theories. Frazil ice deposition and erosion are modeled by a simple critical-velocity criterion. The thermal growth and decay of an ice cover is calculated by a quasi steady finite difference method. The model is applied to the Ohio River system between Pittsburgh, Pennsylvania, and Meldahl, Ohio. Comparisons with field observations show that the model can provide good simulation for ice conditions.

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