Add to ORKGDuring the past decade, both research and operational numerical weather prediction models, e.g. Weather Research and Forecast (WRF) model, have started using more complex microphysical schemes originally developed for high-resolution cloud resolving models (CRMs) with a 1-2 km or less horizontal resolutions. WRF is a next-generation mesoscale forecast model and assimilation system that has incorporated modern software framework, advanced dynamics, numeric and data assimilation techniques, a multiple moveable nesting capability, and improved physical packages. WRF model can be used for a wide range of applications, from idealized research to operational forecasting, with an emphasis on horizontal grid sizes in the range of 1-10 km. The curre...
In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate hail...
Through a collaborative partnership, principally among NCAR, NOAA, DoD, OU/CAPS, FAA, and universiti...
This study evaluated the impact of five single- or double-moment bulk microphysics schemes (BMPSs) o...
Abstract: During the past decade, both research and operational numerical weather prediction models ...
In high-resolution numerical modeling, cloud microphysics schemes can affect the forecasting of trop...
Numerical weather prediction models play a major role in weather forecasting, especially in cases of...
This study examines eight microphysics schemes (Lin, WSM5, Eta, WSM6, Goddard, Thompson, WDM5, WDM6)...
International audienceThe Weather Research and Forecasting (WRF) Model has been designed to be an ef...
Microphysics parameterization becomes increasingly important as the model grid spacing increases tow...
A Goddard bulk microphysical parameterization is implemented into the Weather Research and Forecasti...
This study evaluated the impact of five single- or double-moment bulk microphysics schemes (BMPSs) o...
This study examines the impact of rain-rate initialization (RINIT), microphysical modifications, and...
International audienceMesoscale Convective Systems are complex cloud systems which are primarily the...
<p>In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate h...
International audienceMesoscale Convective Systems are complex cloud systems which are primarily the...
In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate hail...
Through a collaborative partnership, principally among NCAR, NOAA, DoD, OU/CAPS, FAA, and universiti...
This study evaluated the impact of five single- or double-moment bulk microphysics schemes (BMPSs) o...
Abstract: During the past decade, both research and operational numerical weather prediction models ...
In high-resolution numerical modeling, cloud microphysics schemes can affect the forecasting of trop...
Numerical weather prediction models play a major role in weather forecasting, especially in cases of...
This study examines eight microphysics schemes (Lin, WSM5, Eta, WSM6, Goddard, Thompson, WDM5, WDM6)...
International audienceThe Weather Research and Forecasting (WRF) Model has been designed to be an ef...
Microphysics parameterization becomes increasingly important as the model grid spacing increases tow...
A Goddard bulk microphysical parameterization is implemented into the Weather Research and Forecasti...
This study evaluated the impact of five single- or double-moment bulk microphysics schemes (BMPSs) o...
This study examines the impact of rain-rate initialization (RINIT), microphysical modifications, and...
International audienceMesoscale Convective Systems are complex cloud systems which are primarily the...
<p>In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate h...
International audienceMesoscale Convective Systems are complex cloud systems which are primarily the...
In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate hail...
Through a collaborative partnership, principally among NCAR, NOAA, DoD, OU/CAPS, FAA, and universiti...
This study evaluated the impact of five single- or double-moment bulk microphysics schemes (BMPSs) o...