This present study aims to determine the performance of using the Weather Research and Forecasting (WRF) Model, coupled with the urban canopy models (UCMs), in simulating the 2 m air temperature and 2 m relative humidity in Metro Manila. The simulation was performed during a high heat event on 22–29 April 2018, which coincided with the dry season in the Philippines. The four urban canopy model options that were used in this study include, the bulk (no urban), SLUCM, BEP, and BEM. The results of the simulations were compared with the hourly observations from three weather stations over Metro Manila from the National Oceanic and Atmospheric Administration Integrated Surface Dataset (ISD) and one agrometeorological station in Naic, Cavite. Aft...
An urban canopy model (UCM), with detailed urban land-use and anthropogenic heat information, is req...
Model simulations of historical climate changes often do not take into account the climatic effects ...
Urban areas are vulnerable to intensive heatwave periods. In order to understand heat stress in citi...
This present study aims to determine the performance of using the Weather Research and Forecasting (...
The effect of urbanization of Metro Manila, particularly on the amount of sensible heat flux, rainfa...
The effect of urbanization of Metro Manila particularly to the amount of heat flux, rainfall and tem...
Rapid urbanization of cities has greatly modified the thermal and dynamic profile in the urban bound...
The rapid growth of urbanization significantly influences local atmospheric conditions and life qual...
The effects of urban expansion on local meteorology and hydrology of Metro Manila during an extreme ...
Urbanisation is associated with physical modifications of land surfaces and climate of a given area....
Numerical simulation of urban heat island is progressively improving with computing power and sophis...
Abstract Urban heat island effect has been assessed using weather research and forecasting model (WR...
Abstract The steep increase in urban populations results in the spatial extent of cities expanding b...
The urban heat island effect (UHI) for inner land regions was investigated using satellite data, gro...
This study presents a comprehensive modeling approach for simulating the spatiotemporal distribution...
An urban canopy model (UCM), with detailed urban land-use and anthropogenic heat information, is req...
Model simulations of historical climate changes often do not take into account the climatic effects ...
Urban areas are vulnerable to intensive heatwave periods. In order to understand heat stress in citi...
This present study aims to determine the performance of using the Weather Research and Forecasting (...
The effect of urbanization of Metro Manila, particularly on the amount of sensible heat flux, rainfa...
The effect of urbanization of Metro Manila particularly to the amount of heat flux, rainfall and tem...
Rapid urbanization of cities has greatly modified the thermal and dynamic profile in the urban bound...
The rapid growth of urbanization significantly influences local atmospheric conditions and life qual...
The effects of urban expansion on local meteorology and hydrology of Metro Manila during an extreme ...
Urbanisation is associated with physical modifications of land surfaces and climate of a given area....
Numerical simulation of urban heat island is progressively improving with computing power and sophis...
Abstract Urban heat island effect has been assessed using weather research and forecasting model (WR...
Abstract The steep increase in urban populations results in the spatial extent of cities expanding b...
The urban heat island effect (UHI) for inner land regions was investigated using satellite data, gro...
This study presents a comprehensive modeling approach for simulating the spatiotemporal distribution...
An urban canopy model (UCM), with detailed urban land-use and anthropogenic heat information, is req...
Model simulations of historical climate changes often do not take into account the climatic effects ...
Urban areas are vulnerable to intensive heatwave periods. In order to understand heat stress in citi...