Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat
The complex seabed contours and geometry of basin lead to a unique tidal pattern along India's Gulf of Khambhat (GoK). Estimation of tidal levels and associated currents in this basin is challenging due to the amplification of tides and intense current magnitudes. In this study, the finite diff...
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SAGE Publishing
2015-03-01
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| Series: | International Journal of Ocean and Climate Systems |
| Online Access: | https://doi.org/10.1260/1759-3131.6.1.35 |
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doaj-a87b27ad57ff4801a5fc0b97510748202020-11-25T01:28:39ZengSAGE PublishingInternational Journal of Ocean and Climate Systems1759-31311759-314X2015-03-01610.1260/1759-3131.6.1.3510.1260_1759-3131.6.1.35Inter-Comparison of Hydrodynamic Models of Gulf of KhambhatJ SatheeshKumar0R Balaji1 Project Assistant Department of Civil Engineering Indian Institute of Technology Bombay, Mumbai - 400 076, India Assistant Professor Department of Civil Engineering Indian Institute of Technology Bombay, Mumbai - 400 076, IndiaThe complex seabed contours and geometry of basin lead to a unique tidal pattern along India's Gulf of Khambhat (GoK). Estimation of tidal levels and associated currents in this basin is challenging due to the amplification of tides and intense current magnitudes. In this study, the finite difference based numerical model, Delft3D-FLOW has been set up. Spatially varying bottom roughness parameters have been used to estimate the tidal levels and currents for the entire basin and the results are compared with an earlier work of Sathish Kumar and Balaji (2014 and 2015) based on an alternative finite element based numerical model, Telemac2D. An inter-comparison of model results shows good agreement with each other and with the field measurements. The tidal levels are observed to vary from 2m to more than 10m in the narrowing portion of the gulf while the maximum current velocity is seen as 3m/s.https://doi.org/10.1260/1759-3131.6.1.35 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
J SatheeshKumar R Balaji |
| spellingShingle |
J SatheeshKumar R Balaji Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat International Journal of Ocean and Climate Systems |
| author_facet |
J SatheeshKumar R Balaji |
| author_sort |
J SatheeshKumar |
| title |
Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat |
| title_short |
Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat |
| title_full |
Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat |
| title_fullStr |
Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat |
| title_full_unstemmed |
Inter-Comparison of Hydrodynamic Models of Gulf of Khambhat |
| title_sort |
inter-comparison of hydrodynamic models of gulf of khambhat |
| publisher |
SAGE Publishing |
| series |
International Journal of Ocean and Climate Systems |
| issn |
1759-3131 1759-314X |
| publishDate |
2015-03-01 |
| description |
The complex seabed contours and geometry of basin lead to a unique tidal pattern along India's Gulf of Khambhat (GoK). Estimation of tidal levels and associated currents in this basin is challenging due to the amplification of tides and intense current magnitudes. In this study, the finite difference based numerical model, Delft3D-FLOW has been set up. Spatially varying bottom roughness parameters have been used to estimate the tidal levels and currents for the entire basin and the results are compared with an earlier work of Sathish Kumar and Balaji (2014 and 2015) based on an alternative finite element based numerical model, Telemac2D. An inter-comparison of model results shows good agreement with each other and with the field measurements. The tidal levels are observed to vary from 2m to more than 10m in the narrowing portion of the gulf while the maximum current velocity is seen as 3m/s. |
| url |
https://doi.org/10.1260/1759-3131.6.1.35 |
| work_keys_str_mv |
AT jsatheeshkumar intercomparisonofhydrodynamicmodelsofgulfofkhambhat AT rbalaji intercomparisonofhydrodynamicmodelsofgulfofkhambhat |
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1725100332358303744 |