Indoor thermal conditions and the potential of energy conservation of naturally ventilated rooms in summer, China

The indoor temperature and humidity of four cities which are located in different climatic zones in China were monitored continuously in summer. The results show that the indoor air temperatures varied in narrow bands in the cities and the indoor thermal conditions were far from the ASHRAE 55-92 summer comfort zone during most of the measuring period. The indoor thermal environment of naturally ventilated rooms of residential buildings in the four cities was evaluated by using the predicted mean vote (PMV) model and the adaptive comfort model (ACM). The difference of thermal satisfaction between the two results was analyzed and discussed, and the potential of energy conservation was estimated by applying the ACM. The results show that even if energy consumption of dehumidification under humid climatic conditions is taken into consideration, when ACM is employed to optimize the operative temperature of the ventilation systems with the occupants maintaining control of the indoor thermal environment, the potential of energy conservation can be roughly more than 20% over the whole summer season in the four cities.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Indoor thermal environments (ITEs) were tested in summer in 4 climate zones of China. ► Test data show the indoor air temperatures varied in narrow bands in the 4 cities. ► The ITEs were far from the ASHRAE 55-92 summer comfort zone during the test period. ► The ITEs of a natural ventilated room was estimated by employing the PMV and the ACM. ► The potential of energy efficiency was estimated by applying the ACM.