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Increases in Anthropogenic Heat Release from Energy Consumption Lead to More Frequent Extreme Heat Events in Urban Cities
Advances in Atmospheric Sciences ( IF 5.8 ) Pub Date : 2021-01-08 , DOI: 10.1007/s00376-020-0139-y Bin Liu , Zhenghui Xie , Peihua Qin , Shuang Liu , Ruichao Li , Longhuan Wang , Yan Wang , Binghao Jia , Si Chen , Jinbo Xie , Chunxiang Shi
Advances in Atmospheric Sciences ( IF 5.8 ) Pub Date : 2021-01-08 , DOI: 10.1007/s00376-020-0139-y Bin Liu , Zhenghui Xie , Peihua Qin , Shuang Liu , Ruichao Li , Longhuan Wang , Yan Wang , Binghao Jia , Si Chen , Jinbo Xie , Chunxiang Shi
With economic development and rapid urbanization, increases in Gross Domestic Product and population in fast-growing cities since the turn of the 21st Century have led to increases in energy consumption. Anthropogenic heat flux released to the near-surface atmosphere has led to changes in urban thermal environments and severe extreme temperature events. To investigate the effects of energy consumption on urban extreme temperature events, including extreme heat and cold events, a dynamic representation scheme of anthropogenic heat release (AHR) was implemented in the Advanced Research version of the Weather Research and Forecasting (WRF) model, and AHR data were developed based on energy consumption and population density in a case study of Beijing, China. Two simulations during 1999–2017 were then conducted using the developed WRF model with 3-km resolution with and without the AHR scheme. It was shown that the mean temperature increased with the increase in AHR, and more frequent extreme heat events were produced, with an annual increase of 0.02–0.19 days, as well as less frequent extreme cold events, with an annual decrease of 0.26–0.56 days, based on seven extreme temperature indices in the city center. AHR increased the sensible heat flux and led to surface energy budget changes, strengthening the dynamic processes in the atmospheric boundary layer that reduce AHR heating efficiency more in summer than in winter. In addition, it was concluded that suitable energy management might help to mitigate the impact of extreme temperature events in different seasons.
更新日期:2021-01-08
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