The aim of this study was the analysis and simulation of the life cycle of a bifurcating thunderstorm that passed over Beijing, China, on 22 July 2015. Data from 150 surface weather sites and an S-band radar were used in con-junction with WRF simulations that used its multilevel Building Environment Parameterization (BEP) urbanization option. The Urban-case simulation used Beijing land-use information, and the NoUrban one replaced all urban areas by croplands. The Urban case correctly simulated both the observed weak 10-m winds over Beijing (\u3c1.0 m s-1 ) and the weak 2-m urban heat island (\u3c0.58C). Observed radar and rain gauge data, as well as the Urban-case results, all showed precipitation bifurcation around Beijing, with maximum a...
The world's population is increasingly concentrated in large urban areas. Many observational and mod...
The effects of the topography and urbanization on the local atmospheric circulations over the Beijin...
The urban atmospheric boundary layer (UABL) is complex due to the heterogeneous underlying city surf...
Since the 1980s, the industrialization and urbanization of the Beijing area has entered a period of ...
Using 1 km satellite remote sensing observations, this paper examines the clouds, aerosols, water va...
In this study, we examine the impacts of urbanization and open water surface on heavy convective rai...
Rainfall is one of the key terms involved in many hydrological processes, and it is particularly imp...
The focus of this study is an intense heat episode that occurred on 9–13 July 2017 in Beijing, China...
Abstract The heavy storm event that occurred from 18 to 22 July 2021, in Henan province caused sever...
The study of thunderstorm outflows and their actions on structures is a dominant topic of wind engin...
Based on the successful simulation of a typical winter urban boundary layer (UBL) process over Beiji...
The study of thunderstorm outflows and their effects on structures is a key topic in modern wind eng...
The impact of urbanization and the sensitivity of urban canopy parameters (UCPs) on a typical summer...
Localized torrential rainfall disasters in rainy season is called as “Guerrilla-heavy-rainfall disas...
Three types of rainfall (storm, moderate and slight rainfall) in the Beijing area were simulated by ...
The world's population is increasingly concentrated in large urban areas. Many observational and mod...
The effects of the topography and urbanization on the local atmospheric circulations over the Beijin...
The urban atmospheric boundary layer (UABL) is complex due to the heterogeneous underlying city surf...
Since the 1980s, the industrialization and urbanization of the Beijing area has entered a period of ...
Using 1 km satellite remote sensing observations, this paper examines the clouds, aerosols, water va...
In this study, we examine the impacts of urbanization and open water surface on heavy convective rai...
Rainfall is one of the key terms involved in many hydrological processes, and it is particularly imp...
The focus of this study is an intense heat episode that occurred on 9–13 July 2017 in Beijing, China...
Abstract The heavy storm event that occurred from 18 to 22 July 2021, in Henan province caused sever...
The study of thunderstorm outflows and their actions on structures is a dominant topic of wind engin...
Based on the successful simulation of a typical winter urban boundary layer (UBL) process over Beiji...
The study of thunderstorm outflows and their effects on structures is a key topic in modern wind eng...
The impact of urbanization and the sensitivity of urban canopy parameters (UCPs) on a typical summer...
Localized torrential rainfall disasters in rainy season is called as “Guerrilla-heavy-rainfall disas...
Three types of rainfall (storm, moderate and slight rainfall) in the Beijing area were simulated by ...
The world's population is increasingly concentrated in large urban areas. Many observational and mod...
The effects of the topography and urbanization on the local atmospheric circulations over the Beijin...
The urban atmospheric boundary layer (UABL) is complex due to the heterogeneous underlying city surf...