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What's New in NearCoM?
Some results can be found here
Shi., F., Hanes, D. M., Kirby, J. T., and Erikson, L., Barnard, P., and Eshleman, J., 2011, Pressure gradient-driven nearshore circulation on a beach influenced by an adjacent large inlet , J. Geophys. Res., doi:10.10 Chen, S. N., L. P. Sanford, E. W. Koch, F. Shi, and E. W. North. 2007. A nearshore model to investigate the effects of seagrass bed geometry on wave attenuation and suspended sediment transport. Estuaries and Coasts, 3 Smith K. A., North E. W., Shi F. Chen S-N, Sanford L., Hood R. R., Koch E. W. and Newell R. I. E., 2008, Modeling the effects of oyster reefs and breakwaters on seagrass beds, Estuaries and Coasts, 32 (4), 748-757.
Newberger P.A. and J.S. Allen, 2007, Forcing a three-dimensional, hydrostatic, primitive-equation model for application in the surf zone: 1. Formulation, J. Goeophys. Res., , Vol. 112, C08018, doi:10.1029/2006JC003472
Shi F., Kirby J. T., and Hanes, D., 2007, "An efficent mode-splittig method for a curvilinear nearshore circulation model", Coastal Engineering, doi:10.1016/j.coastaleng.2007.05.009, download pdf
The NearCoM model is extended for far-field applications in the multi-scale modeling project in USGS. In the application to San Francisco Bight and Ocean Beach, NearCoM integrates three modules: 1) SWAN for wave generation and propagation; 2) SHORECIRC for prediction of tidal current, wind-induced current and wave-induced nearshore circulation; and 3) H-H type sediment module for prediction of sediment transport and morphology change. Some results can be found here
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latest update:
2 /
28 /
2012