Abstract
Numerical weather modelling has gained considerable attention in the field of hydrology especially in un-gauged catchments and in conjunction with distributed models. As a consequence, the accuracy with which these models represent precipitation, sub-grid-scale processes and exceptional events has become of considerable concern to the hydrological community. This paper presents sensitivity analyses for the Weather Research Forecast (WRF) model with respect to the choice of physical parameterization schemes (both cumulus parameterisation (CPSs) and microphysics parameterization schemes (MPSs)) used to represent the ‘1999 York Flood’ event, which occurred over North Yorkshire, UK, 1st–14th March 1999. The study assessed four CPSs (Kain–Fritsch (KF2), Betts–Miller–Janjic (BMJ), Grell–Devenyi ensemble (GD) and the old Kain–Fritsch (KF1)) and four MPSs (Kessler, Lin et al., WRF single-moment 3-class (WSM3) and WRF single-moment 5-class (WSM5)] with respect to their influence on modelled rainfall. The study suggests that the BMJ scheme may be a better cumulus parameterization choice for the study region, giving a consistently better performance than other three CPSs, though there are suggestions of underestimation. The WSM3 was identified as the best MPSs and a combined WSM3/BMJ model setup produced realistic estimates of precipitation quantities for this exceptional flood event. This study analysed spatial variability in WRF performance through categorical indices, including POD, FBI, FAR and CSI during York Flood 1999 under various model settings. Moreover, the WRF model was good at predicting high-intensity rare events over the Yorkshire region, suggesting it has potential for operational use.
Highlights
Precipitation intensity, timing, spatial distribution of precipitation in basin etc. have great importance in state-of-art operational hydrology, integrated flood management approaches and advanced techniques to predict extreme hydrological events
And Water Assessment Tool (SWAT 2012) using OpenMI 2.0 and web-service technologies and this integrated structure was used for real time hydrological modelling and forecasting
In the south east and north west corners of the basin there are lower false alarm rate (FAR) scores in the case of all four microphysics parameterization schemes (MPSs) scenarios. These results suggest that the best MPS selections based on categorical thresholds are WRF Single-Moment 5-class (WSM5) > Lin et al > WRF Single-Moment 3-class (WSM3) > Kessler for this study region. 477 The NS index, Correlation Coefficient, Coefficient of Regression and slope values all increased in the combination of BMJ scheme with WSM5, Lin.et al and WSM3 micro physics schemes
Summary
Precipitation intensity, timing (onset timing and duration), spatial distribution of precipitation in basin etc. have great importance in state-of-art operational hydrology, integrated flood management approaches and advanced techniques to predict extreme hydrological events. Tang and Dennis (2014) evaluated the capability of WRF with the Variable Infiltration Capacity (VIC) hydrological model and highlighted good agreement in the simulation of monthly and daily soil moisture, and monthly evaporation in the Upper Mississippi River Basin (UMRB) from 1980 to 2010. This study highlighted that results from offline linkage of model could be used to reproduce certain climate variables and hydrological variables like soil moisture. Another reanalysis data driven WRF study by Wenhua and Chung-Hsiung (2013) reproduced the spatial distributions of daily mean precipitation and rainy days similar to that of Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis 3B42 product data in Western North Pacific. Bugaets and Gonchukov (2014) have coupled WRF with Soil and Water Assessment Tool (SWAT 2012) using OpenMI 2.0 and web-service technologies and this integrated structure was used for real time hydrological modelling and forecasting
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