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Investigation of winter indoor thermal environment and heating demand of urban residential buildings in China's hot summer – Cold winter climate region
Abstract In this paper, the winter indoor thermal environment of dwellings in China's Hot Summer – Cold Winter (HSCW) climate region has been investigated by on-site measurement. And the driving forces of the heating requirements of residents in HSCW area has been scrutinized by heteroskedasticity-robust Ordinary Least Square analysis. It is found that in HSCW area, the average internal temperature is 13.5 °C for the living room and 12.7 °C for the bedroom, leading to an uncomfortable indoor thermal environment, markedly colder than that in the UK, which has similar winter climate. Through the investigation of the occupant heating behavior, it was found that domestic heating is operated part-time-part-space and triggered by both time and temperature in the HSCW area. 10 °C is found to be the lowest acceptable internal temperature without heating. The poor indoor thermal environment observed in HSCW area is mainly due to the short heating operation duration (averagely 1.9 h per day for the living room and 1.4 h for the bedroom). Income, presence of child, heating system and thermal experience markedly influence occupants' heating requirements. However, the education is not a statistically significant factor. The rebound effect is observed in HSCW area when analyzing the effects of building energy efficiency on indoor thermal environment.
Highlights The residential winter thermal environment in the HSCW area has been investigated. The heteroskedasticity-robust Ordinary Least Square analysis has been utilized. The average indoor temperature is 13.5 °C for living rooms and 12.7 °C for bedrooms. Heating is operated part-time-part-space and triggered by both time and temperature. Income, presence of child and thermal experience markedly influence heating demands.
Investigation of winter indoor thermal environment and heating demand of urban residential buildings in China's hot summer – Cold winter climate region
Abstract In this paper, the winter indoor thermal environment of dwellings in China's Hot Summer – Cold Winter (HSCW) climate region has been investigated by on-site measurement. And the driving forces of the heating requirements of residents in HSCW area has been scrutinized by heteroskedasticity-robust Ordinary Least Square analysis. It is found that in HSCW area, the average internal temperature is 13.5 °C for the living room and 12.7 °C for the bedroom, leading to an uncomfortable indoor thermal environment, markedly colder than that in the UK, which has similar winter climate. Through the investigation of the occupant heating behavior, it was found that domestic heating is operated part-time-part-space and triggered by both time and temperature in the HSCW area. 10 °C is found to be the lowest acceptable internal temperature without heating. The poor indoor thermal environment observed in HSCW area is mainly due to the short heating operation duration (averagely 1.9 h per day for the living room and 1.4 h for the bedroom). Income, presence of child, heating system and thermal experience markedly influence occupants' heating requirements. However, the education is not a statistically significant factor. The rebound effect is observed in HSCW area when analyzing the effects of building energy efficiency on indoor thermal environment.
Highlights The residential winter thermal environment in the HSCW area has been investigated. The heteroskedasticity-robust Ordinary Least Square analysis has been utilized. The average indoor temperature is 13.5 °C for living rooms and 12.7 °C for bedrooms. Heating is operated part-time-part-space and triggered by both time and temperature. Income, presence of child and thermal experience markedly influence heating demands.
Investigation of winter indoor thermal environment and heating demand of urban residential buildings in China's hot summer – Cold winter climate region
Lin, Borong (author) / Wang, Zhe (author) / Liu, Yanchen (author) / Zhu, Yingxin (author) / Ouyang, Qin (author)
Building and Environment ; 101 ; 9-18
2016-02-22
10 pages
Article (Journal)
Electronic Resource
English
British Library Online Contents | 2016
|British Library Conference Proceedings | 2004
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