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A computational model of a domestic solar heating system with underground spherical thermal storage

Author

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  • Inalli, M
  • Ünsal, M
  • Tanyildizi, V

Abstract

This theoretical study deals with a domestic heating system assisted by solar energy stored in an underground spherical container. The system includes a heat pump. The analytical model employed calculates the water temperature in the storage vessel, as well as the temperature distribution in the surrounding geological structure, by using the monthly-average solar radiation and ambient temperature. Storage temperature, collector efficiency, performance coefficient of the heat pump (COP) and annual solar fraction are computed and presented in various graphs. The importance of seasonal solar energy storing in the ground is demonstrated.

Suggested Citation

  • Inalli, M & Ünsal, M & Tanyildizi, V, 1997. "A computational model of a domestic solar heating system with underground spherical thermal storage," Energy, Elsevier, vol. 22(12), pages 1163-1172.
    • Handle: RePEc:eee:energy:v:22:y:1997:i:12:p:1163-1172
    DOI: 10.1016/S0360-5442(97)00049-2
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    Citations

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    Cited by:

    1. Zhang, Liang & Xu, Peng & Mao, Jiachen & Tang, Xu & Li, Zhengwei & Shi, Jianguo, 2015. "A low cost seasonal solar soil heat storage system for greenhouse heating: Design and pilot study," Applied Energy, Elsevier, vol. 156(C), pages 213-222.
    2. Pinel, Patrice & Cruickshank, Cynthia A. & Beausoleil-Morrison, Ian & Wills, Adam, 2011. "A review of available methods for seasonal storage of solar thermal energy in residential applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(7), pages 3341-3359, September.
    3. Ozyurt, Omer & Ekinci, Dundar Arif, 2011. "Experimental study of vertical ground-source heat pump performance evaluation for cold climate in Turkey," Applied Energy, Elsevier, vol. 88(4), pages 1257-1265, April.
    4. Bakirci, Kadir & Ozyurt, Omer & Comakli, Kemal & Comakli, Omer, 2011. "Energy analysis of a solar-ground source heat pump system with vertical closed-loop for heating applications," Energy, Elsevier, vol. 36(5), pages 3224-3232.
    5. Rapantova, Nada & Pospisil, Pavel & Koziorek, Jiri & Vojcinak, Petr & Grycz, David & Rozehnal, Zdenek, 2016. "Optimisation of experimental operation of borehole thermal energy storage," Applied Energy, Elsevier, vol. 181(C), pages 464-476.
    6. Szczęśniak, Arkadiusz & Milewski, Jarosław & Dybiński, Olaf & Futyma, Kamil & Skibiński, Jakub & Martsinchyk, Aliaksandr, 2023. "Dynamic simulation of a four tank 200 m3 seasonal thermal energy storage system oriented to air conditioning at a dietary supplements factory," Energy, Elsevier, vol. 264(C).
    7. Bai, Yakai & Wang, Zhifeng & Fan, Jianhua & Yang, Ming & Li, Xiaoxia & Chen, Longfei & Yuan, Guofeng & Yang, Junfeng, 2020. "Numerical and experimental study of an underground water pit for seasonal heat storage," Renewable Energy, Elsevier, vol. 150(C), pages 487-508.
    8. Hesaraki, Arefeh & Holmberg, Sture & Haghighat, Fariborz, 2015. "Seasonal thermal energy storage with heat pumps and low temperatures in building projects—A comparative review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 43(C), pages 1199-1213.
    9. Le Minh Nhut & Waseem Raza & Youn Cheol Park, 2020. "A Parametric Study of a Solar-Assisted House Heating System with a Seasonal Underground Thermal Energy Storage Tank," Sustainability, MDPI, vol. 12(20), pages 1-19, October.

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