1. A novel strategy for a building-integrated diurnal photovoltaic and all-day radiative cooling system.
- Author
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Zhao, Bin, Hu, Mingke, Ao, Xianze, Chen, Nuo, Xuan, Qingdong, Su, Yuehong, and Pei, Gang
- Subjects
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BUILDING-integrated photovoltaic systems , *HYBRID systems , *SOLAR energy , *HYBRID computer simulation , *MATHEMATICAL models , *SIMULATION methods & models - Abstract
For rooftop building-integrated photovoltaic (BIPV) technology, photovoltaic (PV) modules are typically mounted on the sunny side of a rooftop to receive a high amount of solar irradiance, whereas the opposite side of the rooftop will have free space. This study proposed a novel strategy for building-integrated PV and radiative cooling (RC) system, namely BIPV−RC system, by covering the sunny side of a rooftop with PV modules and its free side with all-day RC modules to integrate solar energy collection and RC utilization into a single building unit. A mathematical model was developed for the proposed BIPV−RC system and a case study was conducted in two tropical cities (Karachi, Pakistan and Riyadh, Saudi Arabia). Results show the total electricity and cooling output of the BIPV−RC system in Riyadh is 462.1 kWh·m−2 and 1315.3 MJ m−2, respectively, approximately 20.7% and 94.0% higher than those in Karachi. Moreover, a comparative study between the BIPV−RC system and the common BIPV and building-integrated RC (BIRC) system was performed and results indicate that the annual total energy output of the BIPV−RC system is nearly 79.1% and 16.8% higher than that of BIPV and BIRC system, respectively. • A novel strategy for BIPV and all-day radiative cooling hybrid system was proposed. • A simulation model of the hybrid system was established and validated. • The feasibility of the proposed strategy was numerically demonstrated. • The radiative cooling mechanism is more suitable for dry regions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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