![]() For the occupant with optimal clothing resistance (1.2 clo for BOPV-TW, 1 clo for BIPV-TW and BMPV-TW), the occupant in the room with BOPV-TW does not feel cold and very uncomfortable, and the duration of the comfortable state is the longest. In the room with PV-TW, the indoor thermal comfort is significantly affected by the clothing resistance and the adjacent room temperature. Moving the installation location of absorber plate in BMPV-TW can improve the indoor thermal comfort and its electrical performance. ![]() The results reveal that the room with BIPV-TW in the multi-storey building maintains the indoor thermal comfort level within the acceptable range for the longest time. The indoor thermal comfort of a room installed with PV-TW in the multi-storey building was evaluated by introducing standard effective temperature (SET), and the differences in indoor thermal comfort among built-in (BIPV-TW), built-out (BOPV-TW), and built-middle PV-TW (BMPV-TW) were compared. ![]() In this study, by coupling PV-TW and indoor environment, a thermal comfort analysis model based on energy balance and nodes method was established, and solved by MATLAB R2016a. However, the change of indoor thermal environment caused by PV-TW has not been paid enough attention, especially for a room in the multi-storey building.
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