Coastal Engineering V: Computer Modelling of Seas and Coastal Regions, Volume 5C. A. Brebbia Computer models now provide an efficient and economic tool for the analysis of coastal engineering problems. In particular, they are increasingly being used in conjunction with measuring techniques to determine the extent of environmental problems and to take action when a disaster occurs, determining its extent and consequence, and optimizing available resources. |
Contents
R Kirby | 121 |
act study in MétéoFrance storm surge model | 135 |
methods for processing randomly scattered | 161 |
Copyright | |
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Common terms and phrases
Ash Shihr average bathymetry beach breakwater Broughton Archipelago calculated coast Coastal Engineering Coastal Regions coefficient cohesive sediment components Computer Modelling crest damage density depth points developed dikes direction effect equation erosion eutrophication Figure finite element flow flume foreland formula grid H/ho harbour Haringvliet Haringvliet sluices horizontal hydrodynamic internal waves interpolation methods Inverse Square layer Lesum LiDAR Maasmond marine maximum measurements mesh Météo-France Modelling of Seas node nonlinear numerical model obtained Ocean Oder river parameters particles period points 2 sets points Inverse Fourth prediction problems Proc profiles PRŠIĆ river run-up salinity Seas and Coastal sediment transport shallow water shoreline significant wave height siltation simulated solitary waves solution spreading function storm surge structure sub-module Szczecin Lagoon Taylor 5 points Taylor series tidal values vertical water depth water level water quality water waves Widewater Widewater Lagoon wind x/ho მი