Based on data of daily air temperature during 1951-2013,long-term variation characteristics of cooling degree days( CDD) in Xi'an and Chang'an in summer were analyzed by using CDD to evaluate cooling energy consum...Based on data of daily air temperature during 1951-2013,long-term variation characteristics of cooling degree days( CDD) in Xi'an and Chang'an in summer were analyzed by using CDD to evaluate cooling energy consumption and 26 ℃ as the basic temperature of CDD. The results indicated that the changing trends of CDD in Xi'an and Chang'an were basically identical within a year,and the demand for cooling refrigeration was large mainly from June to August,especially in July. The maximum of urban-rural difference of CDD between Xi'an and Chang'an appeared in June.In order to achieve the same temperature,energy needed by the urban area was 5-7 ℃·d more than the suburb from June to August. Temperature and the cooling energy consumption were closely related,and the correlation degree increased with the rise of temperature. The effects of temperature increase of 1 ℃ on cooling energy consumption rate in Xi'an were more obvious than that in Chang'an. In both Xi'an and Chang'an,the effects of temperature increase of 1 ℃ on cooling energy consumption rate in July and August were greater than that in May,June and September.Evaluation models of cooling energy consumption in summer in Xi'an and Chang'an were built using temperature anomaly and CDD variability and can be applied to business systems.展开更多
基金Supported by Foundation for Young Scholars of Shaanxi Meteorological Bureau in 2016 and 2017(2016Y-7,2017Y-11)
文摘Based on data of daily air temperature during 1951-2013,long-term variation characteristics of cooling degree days( CDD) in Xi'an and Chang'an in summer were analyzed by using CDD to evaluate cooling energy consumption and 26 ℃ as the basic temperature of CDD. The results indicated that the changing trends of CDD in Xi'an and Chang'an were basically identical within a year,and the demand for cooling refrigeration was large mainly from June to August,especially in July. The maximum of urban-rural difference of CDD between Xi'an and Chang'an appeared in June.In order to achieve the same temperature,energy needed by the urban area was 5-7 ℃·d more than the suburb from June to August. Temperature and the cooling energy consumption were closely related,and the correlation degree increased with the rise of temperature. The effects of temperature increase of 1 ℃ on cooling energy consumption rate in Xi'an were more obvious than that in Chang'an. In both Xi'an and Chang'an,the effects of temperature increase of 1 ℃ on cooling energy consumption rate in July and August were greater than that in May,June and September.Evaluation models of cooling energy consumption in summer in Xi'an and Chang'an were built using temperature anomaly and CDD variability and can be applied to business systems.
