In recent years,climate change has become a hot topic and which was being researched by many atmospheric scientists.Meanwhile,climate change has caused many extreme weather and climate events,such as the high temperature disaster,which was increasing obviously and could lead to adverse impacts on urban safety, economic development and human health.Therefore,carrying out the risk zoning research is becoming more and more important and indispensable.Beijing-Tianjin-Hebei urban agglomeration is one of the most important regions in China,where often affected by meteorological disaster,especially summer high temperature and hot wave.In this paper,we use the data of 175 meteorological observations and socio-economic material to research and analyze the high temperature disaster risk in Beijing-Tianjin-Hebei urban agglomeration.Results show that:the high temperature frequency is higher in the south and plains,while it is lower in the north and mountains.The area between Shijiazhuang,Hengshui and Handan has the highest frequency.However,in the northern part of Hebei Province,such as Chengde,Zhangj iakou and Qinhuangdao has the lowest probability for high temperature event.The regions where the disaster factors and environments are the most sensitive mainly located in the south of Hebei,as while as,the most vulnerable regions of bearing body mainly distributed in large cities.The developed regions have greater capacity in resisting high temperature disaster,and their risk index is lower.The integrated risk zoning of high temperature disaster in Beijing-Tianjin-Hebei urban agglomeration is characterized that it is higher in the south and lower in the north,the highest-risk areas concentrated in the southern Hebei and the urban areas of Beijing and Tianjin,meanwhile,they are the higher-risk or moderate-risk areas in the central of Hebei and the neighboring regions of Beijing and Tianjin.While,in the north,northwest and northeast,they are the lowest-risk or lower-risk areas.Comprehensive analyzing high temperature risk regional differences and researching the zoning method in Beijing-Tianjin-Hebei urban agglomeration can provide a scientific basis and reference for other meteorological disaster evaluation.