Coupling optimization study of key influencing factors on PCM trombe wall for year thermal management.

Article

Na Zhu

Renjie Deng,Pingfang Hu,Fei Lei,Linghong Xu,Zhangning Jiang

Energy

SCI

Huazhong University of Science and Technology

Denmark

Engineering

Civil Engineering

National Natural Science Foundation of China (NSFC)

J

236

121470

0360-5442

Phase change material; Trombe wall; Optimization; Indoor thermal environment; Building operation; Energy consumption

10.1016/j.energy.2021.121470

2021-12-01

8.857

建筑环境与能源应用工程系

The proposed environment-interactive novel Trombe wall system was a passive building envelope integrated with phase change material (PCM) based on traditional Trombe wall. Compared with traditional Trombe wall system, this system can make full use of solar energy and nature ventilation, improving indoor thermal comfort. The dynamic heat transfer model of PCM Trombe room was established, and six key factors influencing thermal performance of PCM Trombe wall system were analyzed. Through the coupled operation of TRNSYS heat transfer model and GenOpt optimization software, the energy con-sumption characteristics of the system and the optimal value of the key influencing factors were analyzed and obtained. The optimal air gap thickness was 0.05 m, the optimal external sun-shading length was 0.78 m, the optimal thermal storage wall thickness was 0.68 m, the optimal vents area was 0.6 m(2), the optimal melting temperature of lower temperature PCM layer was 16.5 degrees C, and the optimal melting temperature of higher temperature PCM layer was 27.75 degrees C. The annual total building load was reduced by 7.56% in optimized reference Trombe room compared with traditional Trombe wall, and the annual total building load was reduced by 13.52% in optimized PCM Trombe compared with reference Trombe wall.