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363544-191001-021000
19-NGI3-72
19-NGI3-40
10/1/2019
2021-12-31 0:0:0
Completed
$116,365.00
Examination of Hurricane Weather Research and Forecasting (HWRF) System at the Land and Ocean Interface
Chen
Xiaomin
MSU
Moorhead
Robert
MSU
Coastal Hazards CH
OAR
The planetary boundary layer (PBL) is the lowest level of the atmosphere, whose conditions frequently and rapidly change in response to the Earth’s surface fluxes. These rapidly changing conditions are parameterized in the NOAA hurricane forecasting modeling system. Researchers are seeking to improve the NOAA modeling system and its products by identifying error sources, conducting validations, and analyzing case studies. This project will improve parametric formulations of the surface tropical cyclone winds equation to better represent wind decay after a hurricane reaches land. Currently, the extrapolation of parametric wind equations (20- to 34-knot winds) in the tropical cyclone outer-core contains a positive bias, resulting in over-specified surge inundation and wind gust impacts. New empirical equations are being developed for tropical cyclone wind profiles extending past the radius of 34-knot winds using surface sustained winds extracted from a University Corporation for Atmospheric Research (UCAR) hurricane reconnaissance flight dataset from 1997 to 2019.
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