In this study, the performance of two different Microphysics Scheme options in Weather Research and Forecasting (WRF) model were evaluated for the estimating the precipitation forecast. The schemes WRF single moment class-3 (WSM-3) and single moment class-6 (WSM-6) were employed to produce the minimum, medium and maximum precipitation for the selected events over the Kuantan River Basin (KRB). The obtained simulated results were compared with the observed data from eight different rainfall gauging stations. The results comparison indicate that WRF model provides better forecasting at some rainfall stations for minimum and medium rainfall events but did not produce good result during maximum rainfall overall. The WSM-6 scheme is found to pro...
A sensitivity study of the performance of the Weather Research and Forecasting regional model (WRF, ...
This study validates the performance of four different cloud microphysics parameterization (CMP) wit...
This study examines how different microphysical parameterization schemes influence orographically in...
In this study, the performance of two different Microphysics Scheme options in Weather Research and ...
The numerical weather forecast model Weather Research and Forecasting (WRF) has a range of applicati...
Incomplete hydro-meteorological data and insufficient rainfall gauges have caused difficulties in es...
Microphysics parameterization becomes increasingly important as the model grid spacing increases tow...
Rainfall dynamics play a vital role in tropical peatland by providing sufficient water to keep peat ...
Reliable estimates of extreme rainfall events are necessary for an accurate prediction of floods. Mo...
Numerical weather prediction models play a major role in weather forecasting, especially in cases of...
In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate hail...
(WRF) model for simulation of heavy rainfall events in presence of monsoon depressions over the Indi...
AbstractSensitivity of WRF-EMS model using combination of convective and planetary boundary layer wa...
A method to explicitly calculate the effective radius of hydrometeors in the Weather Research Foreca...
In recent years, the Weather Research and Forecast (WRF) model has been utilized to generate quantit...
A sensitivity study of the performance of the Weather Research and Forecasting regional model (WRF, ...
This study validates the performance of four different cloud microphysics parameterization (CMP) wit...
This study examines how different microphysical parameterization schemes influence orographically in...
In this study, the performance of two different Microphysics Scheme options in Weather Research and ...
The numerical weather forecast model Weather Research and Forecasting (WRF) has a range of applicati...
Incomplete hydro-meteorological data and insufficient rainfall gauges have caused difficulties in es...
Microphysics parameterization becomes increasingly important as the model grid spacing increases tow...
Rainfall dynamics play a vital role in tropical peatland by providing sufficient water to keep peat ...
Reliable estimates of extreme rainfall events are necessary for an accurate prediction of floods. Mo...
Numerical weather prediction models play a major role in weather forecasting, especially in cases of...
In the present study, the Weather Research and Forecasting (WRF) Model was employed to simulate hail...
(WRF) model for simulation of heavy rainfall events in presence of monsoon depressions over the Indi...
AbstractSensitivity of WRF-EMS model using combination of convective and planetary boundary layer wa...
A method to explicitly calculate the effective radius of hydrometeors in the Weather Research Foreca...
In recent years, the Weather Research and Forecast (WRF) model has been utilized to generate quantit...
A sensitivity study of the performance of the Weather Research and Forecasting regional model (WRF, ...
This study validates the performance of four different cloud microphysics parameterization (CMP) wit...
This study examines how different microphysical parameterization schemes influence orographically in...