A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Hindcast Wave Information for the Great Lakes: Lake Ontario
The primary purpose of this study is to provide an accurate and comprehensive data base of information descriptive of the long-term wave climate for the Great Lakes. The goal is to accurately represent mean values of wave parameters such as height, period, and direction. At any station, the hindcast values are expected to differ at times from measured values, but this difference will generally be small and, in the mean, approach zero. It is also expected that the extreme values at any station will accurately represent actual conditions and provide reliable design wave information. This report describes the selection of a grid and hindcast sites, methods used to process and prepare input wind fields, numerical model calibration and verification, and production of a 32-year (1956-1987) hindcast. Information of this nature is essential to efforts in developing workable shoreline management guidelines and navigational aids. Projects benefiting from such information include dredging and dredge disposal, beach nourishment and erosion studies, and the design of coastal structures such as jetties, harbors, revetments, and breakwaters, as well as local projects for improving recreation safety.
Hindcast Wave Information for the Great Lakes: Lake Ontario
The primary purpose of this study is to provide an accurate and comprehensive data base of information descriptive of the long-term wave climate for the Great Lakes. The goal is to accurately represent mean values of wave parameters such as height, period, and direction. At any station, the hindcast values are expected to differ at times from measured values, but this difference will generally be small and, in the mean, approach zero. It is also expected that the extreme values at any station will accurately represent actual conditions and provide reliable design wave information. This report describes the selection of a grid and hindcast sites, methods used to process and prepare input wind fields, numerical model calibration and verification, and production of a 32-year (1956-1987) hindcast. Information of this nature is essential to efforts in developing workable shoreline management guidelines and navigational aids. Projects benefiting from such information include dredging and dredge disposal, beach nourishment and erosion studies, and the design of coastal structures such as jetties, harbors, revetments, and breakwaters, as well as local projects for improving recreation safety.
Hindcast Wave Information for the Great Lakes: Lake Ontario
R. D. Reinhard (author) / D. B. Driver (author) / J. M. Hubertz (author)
1991
339 pages
Report
No indication
English
Hydrology & Limnology , Dynamic Meteorology , Civil Engineering , Information Systems , Coastal regions , Lake Ontario , Accuracy , Breakwaters , Calibration , Data bases , Disposal , Dredging , Erosion , Great Lakes , Grids , Harbors , Input , Instructions , Long range(Time) , Management , Mathematical models , Navigational aids , Parameters , Production , Range(Extremes) , Recreation , Reliability , Revetments , Safety , Shores , Structures , Value , Verification , Waves , Wind , Lake waves , Air water interactions , Information systems , Wave propagation , Shore protection , Navigation , Beach erosion
Hindcast based global wave statistics
| Elsevier | 2022
Ontario-Great Lakes Shoreline Management: An Update
| Online Contents | 1998
Engineering Benefits From Hurricane Opal's Wave Hindcast Information
| British Library Conference Proceedings | 1997
GOW2: A global wave hindcast for coastal applications
| Elsevier | 2017