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Analytical and experimental study of an innovative multiple-throughout-flowing micro-channel-panels-array for a solar-powered rural house space heating system

Author

Listed:
  • Fan, Yi
  • Zhao, Xudong
  • Li, Guiqiang
  • Cheng, Yuanda
  • Zhou, Jinzhi
  • Yu, Min
  • Du, Zhenyu
  • Ji, Jie
  • Zhu, Zishang
  • Diallo, Thierno
  • Ma, Xiaoli

Abstract

This paper presents a combined analytical and experimental study of an innovative multiple-throughout-flowing micro-channel-panels-array applicable to a solar-powered rural house space heating system. This array, compared to the traditional one-to-one-connection panels-array, can significantly reduce the temperature difference between the head and real panels and thus increase the overall solar thermal efficiency and energy efficiency ratio (EER). The research methodology covers the theoretical analysis, experimental testing, model validation and system optimization. It is found that the analytical model has a good accuracy in predicting the performance of the multiple-throughout-flow micro-channels-panels-array, giving a discrepancy of less than 10%. In terms of the configuration and sizes of the array, 10 pieces of panels with 5 flow turns is regarded as the most favorite option. During the operation, decreasing flow rate of the fluid led to the increased EER of the panels-array. By converting the one-to-one-connection mode into the multiple-throughout-flowing mode, the overall solar thermal efficiency of the panels-array increases by around 10% and its energy efficiency factor (EER) decreases by 80% respectively. The research has addressed a novel solar-panels-array that can be well applied to solar thermal systems, thus making a significant contribution to the saving of fossil fuel energy consumption and reduction of carbon emission on global scale.

Suggested Citation

  • Fan, Yi & Zhao, Xudong & Li, Guiqiang & Cheng, Yuanda & Zhou, Jinzhi & Yu, Min & Du, Zhenyu & Ji, Jie & Zhu, Zishang & Diallo, Thierno & Ma, Xiaoli, 2019. "Analytical and experimental study of an innovative multiple-throughout-flowing micro-channel-panels-array for a solar-powered rural house space heating system," Energy, Elsevier, vol. 171(C), pages 566-580.
    • Handle: RePEc:eee:energy:v:171:y:2019:i:c:p:566-580
    DOI: 10.1016/j.energy.2019.01.049
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    References listed on IDEAS

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    1. Deng, Yuechao & Wang, Wei & Zhao, Yaohua & Yao, Liang & Wang, Xinyue, 2013. "Experimental study of the performance for a novel kind of MHPA-FPC solar water heater," Applied Energy, Elsevier, vol. 112(C), pages 719-726.
    2. Moreno-Rodríguez, A. & González-Gil, A. & Izquierdo, M. & Garcia-Hernando, N., 2012. "Theoretical model and experimental validation of a direct-expansion solar assisted heat pump for domestic hot water applications," Energy, Elsevier, vol. 45(1), pages 704-715.
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    Cited by:

    1. Fan, Yi & Zhao, Xudong & Li, Jing & Li, Guiqiang & Myers, Steve & Cheng, Yuanda & Badiei, Ali & Yu, Min & Golizadeh Akhlaghi, Yousef & Shittu, Samson & Ma, Xiaoli, 2020. "Economic and environmental analysis of a novel rural house heating and cooling system using a solar-assisted vapour injection heat pump," Applied Energy, Elsevier, vol. 275(C).
    2. Fan, Yi & Zhao, Xudong & Han, Zhonghe & Li, Jing & Badiei, Ali & Akhlaghi, Yousef Golizadeh & Liu, Zhijian, 2021. "Scientific and technological progress and future perspectives of the solar assisted heat pump (SAHP) system," Energy, Elsevier, vol. 229(C).

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