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Trombe wall for a residential building in Sichuan-Tibet alpine valley – A case study

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  • Zhang, Lili
  • Hou, Yuyao
  • Liu, Zu’an
  • Du, Junfei
  • Xu, Long
  • Zhang, Guomin
  • Shi, Long

Abstract

Trombe wall (also called T-Wall) as a reliable renewable energy system has attracted increasing attention from both academics and engineers under the current energy crisis. This study then focused on a Tibetan dwelling retrofitting in the Sichuan-Tibet Alpine Valley, adopting T-wall as a passive heating solution. We investigated a classic T-wall in the target building based on field measurement, orthogonal experiment, and numerical simulation methods. It was known that the maximum average indoor temperature of the master room can reach 18.87 °C in the coldest month (January) of the Sichuan-Tibet Alpine Valley. Six key influencing factors were analyzed accordingly, including the south T-wall-to-wall ratio, inlet/outlet height, glazing inclination angle, storage wall thickness, storage wall material and cavity gap. Among those analyzed factors, it was obtained that the highly significant factors are the south T-wall-to-wall ratio and glazing inclination angle. The larger the proportion of the south T-wall-to-wall ratio, the better the indoor temperature is. The best glazing inclination angle was obtained as 100 for the target residential building under the local conditions. Solar passive technology as a cost-effective solution can improve the indoor thermal environment of the Tibetan dwellings in the Qinghai-Tibet Plateau. The total annual energy consumption of the Tibetan dwelling using the optimal combination can be reduced by about 72% compared to that of the existing Tibetan houses. The research outcomes can provide a practical guide on the future design of passive solar technologies.

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  • Zhang, Lili & Hou, Yuyao & Liu, Zu’an & Du, Junfei & Xu, Long & Zhang, Guomin & Shi, Long, 2020. "Trombe wall for a residential building in Sichuan-Tibet alpine valley – A case study," Renewable Energy, Elsevier, vol. 156(C), pages 31-46.
    • Handle: RePEc:eee:renene:v:156:y:2020:i:c:p:31-46
    DOI: 10.1016/j.renene.2020.04.067
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    4. Pau Chung Leng & Gabriel Hoh Teck Ling & Mohd Hamdan Ahmad & Dilshan Remaz Ossen & Eeydzah Aminudin & Weng Howe Chan & Dg Normaswanna Tawasil, 2020. "Thermal Performance of Single-Story Air-Welled Terraced House in Malaysia: A Field Measurement Approach," Sustainability, MDPI, vol. 13(1), pages 1-23, December.
    5. Lili Zhang & Lei Tian & Qiong Shen & Fei Liu & Haolin Li & Zhuojun Dong & Jingyue Cheng & Haoru Liu & Jiangjun Wan, 2021. "Study on the Influence and Optimization of the Venturi Effect on the Natural Ventilation of Buildings in the Xichang Area," Energies, MDPI, vol. 14(16), pages 1-17, August.
    6. Xingbo Yao & Bart J. Dewancker & Yuang Guo & Shuo Han & Juan Xu, 2020. "Study on Passive Ventilation and Cooling Strategies for Cold Lanes and Courtyard Houses—A Case Study of Rural Traditional Village in Shaanxi, China," Sustainability, MDPI, vol. 12(20), pages 1-36, October.
    7. Zhang, Zhigang & Liu, Qiaoli & Yao, Wanxiang & Zhang, Wei & Cao, Jingfu & He, Haiyan, 2022. "Research on temperature distribution characteristics and energy saving potential of wall implanted with heat pipes in heating season," Renewable Energy, Elsevier, vol. 195(C), pages 1037-1049.
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