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Optimum Orientation of the Multi-Span Greenhouse for Maximum Capture of Solar Energy in Central Region of Iran

Publish place: Journal of Renewable Energy and Environment، Vol: 9، Issue: 3
Publish Year: 1401
نوع سند: مقاله ژورنالی
زبان: English
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لینک ثابت به این Paper:
https://civilica.com/doc/1513873

شناسه ملی سند علمی:

JR_JREE-9-3_007

تاریخ نمایه سازی: 20 شهریور 1401

Abstract:

The orientation of greenhouses is one of the effective factors in terms of radiation they receive. In the present study, a multi-span greenhouse (۴۰ m × ۹۳.۵ m with a coverage area of ۵۴۵۷.۴۴ m۲) located in the central region of Iran was investigated in three orientations including: North-South (N-S), East-West (E-W), and Northeast-Southwest (NE-SW: the most frequent orientation of the existing greenhouses in the study area). The solar irradiation received on the outside surface of the greenhouse cover and the amount of irradiation captured inside the greenhouse for each orientation during the cold season were calculated using mathematical modeling and the results were compared. According to the results, in the E-W orientation, the main sections of receiving solar irradiation, such as the south and north roofs, have a better angle toward the sun; therefore, the quantity of solar irradiation captured inside the greenhouse with the E-W orientation was on average ۳۶۱.۴۸ MJ day-۱ more than that with the N-S orientation. The north wall of the greenhouse could not receive the beam radiation for all the orientations investigated, and the total irradiation captured by this section was composed of the diffused radiation and the ground-reflected radiation, which is an important result for insulation of some surfaces of greenhouses. 

Keywords:

Greenhouse orientation , Mathematical Modeling , North wall , Solar irradiation

Authors

Mehran Gheyrati

Department of Agricultural Machinery Engineering, Faculty of Agricultural Engineering and Technology, University of Tehran, Karaj, Alborz, Iran.

Asadollah Akram

Department of Agricultural Machinery Engineering, Faculty of Agricultural Engineering and Technology, University of Tehran, Karaj, Alborz, Iran.

Hassan Ghasemi-Mobtaker

Department of Agricultural Machinery Engineering, Faculty of Agricultural Engineering and Technology, University of Tehran, Karaj, Alborz, Iran.

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  • Duro, J.A., Lauk, C., Kastner, T., Erb, K.-H. and Haberl, ...
  • Iddio, E., Wang, L., Thomas, Y., McMorrow, G. and Denzer, ...
  • Taki, M., Rohani, A. and Rahmati-Joneidabad, M., Solar thermal simulation ...
  • Anonymous, Annual Agricultural Statistics, Organ. Agric. (۲۰۱۹). (https://yazd.maj.ir), (accessed May ...
  • FAO, Iranian National Census of Agriculture, Food and Agriculture Organization, ...
  • Mohammadi, B., Ranjbar, S. F. and Ajabshirchi, Y., Application of ...
  • Shamim Ahamed, M., Guo, H. and Tanino, K., Energy saving ...
  • Pishgar-Komleh, S. H., Omid, M. and Heidari, M. D., On ...
  • Vadiee, A. and Martin, V., Energy management in horticultural applications ...
  • Zarezade, M. and Mostafaeipour, A., Identifying the effective factors implementing ...
  • Tiwari, G. N., Din, M., Srivastava, N. S. L., Jain, ...
  • Gupta, M. J. and Chandra, P., Effect of greenhouse design ...
  • Ghosal, M. K. and Tiwari, G. N., Mathematical modeling for ...
  • Gupta, R. and Tiwari, G. N., Modeling of energy distribution ...
  • Gupta, R., Tiwari, G. N., Kumar, A. and Gupta, A., ...
  • Attar, I., Naili, N., Khalifa, N., Hazami, M. and Farhat, ...
  • Bouadila, S., Kooli, S., Skouri, S., Lazaar, M. and Farhat, ...
  • Zhang, L., Xu, P., Mao, J., Tang, X., Li, Z. ...
  • Ghasemi-Mobtaker, H., Ajabshirchi, Y., Ranjbar, S. F. and Matloobi, M., ...
  • Shamim Ahamed, M., Guo, H. and Tanino, K., A quasi-steady ...
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  • Wei, B., Guo, S., Wang, J., Li, J., Wang, J., ...
  • Von Elsner, B., Briassoulis, D., Waaijenberg, D., Mistriotis, A., von ...
  • Kendirli, B., Structural analysis of greenhouses: A case study in ...
  • Sethi, V. P., On the selection of shape and orientation ...
  • Singh, R.D. and Tiwari, G.N. Energy conservation in the greenhouse ...
  • Çakır, U. and Şahin, E., Using solar greenhouses in cold ...
  • El-Maghlany, W. M., Teamah, M.A. and Tanaka, H., Optimum design ...
  • Stanciu, C., Stanciu, D. and Dobrovicescu, A., Effect of Greenhouse ...
  • Chen, C., Li, Y., Li, N., Wei, S., Yang, F., ...
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  • Erbs, D. G., Klein, S.A. and Duffie, J. A., Estimation ...
  • Duffie, J. A. and Beckman, W. A., Solar Engineering of ...
  • Mertens, K., Photovoltaics : fundamentals, technology and practice, first ed., John ...
  • O. Kitani, O. and Jungbluth, T., CIGR handbook of agricultural ...
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