FIELD EVALUATION AND PVSYST MODELLING OF A MOBILE PHOTOVOLTAIC WATER-PUMPING SYSTEM FOR SMALLHOLDER IRRIGATION IN EGYPT
Ramadan, A., Sharafeldin, Y., Bakeer, G., Omran, M., EL-Ghetany, H. (2025). FIELD EVALUATION AND PVSYST MODELLING OF A MOBILE PHOTOVOLTAIC WATER-PUMPING SYSTEM FOR SMALLHOLDER IRRIGATION IN EGYPT. EKB Journal Management System, 47(4), 1233-1252. doi: 10.21608/agro.2025.424774.1853
Abdelraouf Ramadan; Yasmin Sharafeldin; Gomaa Bakeer; Mohamed Omran; Hamdy EL-Ghetany. "FIELD EVALUATION AND PVSYST MODELLING OF A MOBILE PHOTOVOLTAIC WATER-PUMPING SYSTEM FOR SMALLHOLDER IRRIGATION IN EGYPT". EKB Journal Management System, 47, 4, 2025, 1233-1252. doi: 10.21608/agro.2025.424774.1853
Ramadan, A., Sharafeldin, Y., Bakeer, G., Omran, M., EL-Ghetany, H. (2025). 'FIELD EVALUATION AND PVSYST MODELLING OF A MOBILE PHOTOVOLTAIC WATER-PUMPING SYSTEM FOR SMALLHOLDER IRRIGATION IN EGYPT', EKB Journal Management System, 47(4), pp. 1233-1252. doi: 10.21608/agro.2025.424774.1853
Ramadan, A., Sharafeldin, Y., Bakeer, G., Omran, M., EL-Ghetany, H. FIELD EVALUATION AND PVSYST MODELLING OF A MOBILE PHOTOVOLTAIC WATER-PUMPING SYSTEM FOR SMALLHOLDER IRRIGATION IN EGYPT. EKB Journal Management System, 2025; 47(4): 1233-1252. doi: 10.21608/agro.2025.424774.1853

FIELD EVALUATION AND PVSYST MODELLING OF A MOBILE PHOTOVOLTAIC WATER-PUMPING SYSTEM FOR SMALLHOLDER IRRIGATION IN EGYPT

Egyptian Journal of Agronomy
Volume 47, Issue 4, December 2025, Pages 1233-1252    PDF (2.29 M)
Document Type: Original Article
DOI: 10.21608/agro.2025.424774.1853
Authors
Abdelraouf Ramadan* 1; Yasmin Sharafeldin2; Gomaa Bakeer3; Mohamed Omran3; Hamdy EL-Ghetany4
1Agricultural and Biological Research Institute, National Research Center
2Master Student, Agricultural Engineering Department, Faculty of Agriculture, Cairo University, Giza
3Agricultural Engineering Department, Faculty of Agriculture, Cairo University, Giza 12613, Egypt;
4Solar Energy Department, National Research Centre, Dokki, 12622, Giza, Egypt;
Abstract
The research study was conducted at three sites in the Delta and Nile Valley to increase the sustainability of agricultural operations under arid conditions in Egypt. A mobile solar-powered irrigation pumping unit was designed and implemented, and the optimal solar panel tilt angle and azimuth were determined for the three sites to achieve high-performance and a sustainable alternative to diesel-powered water pumping. Practical trials began in early 2021 and continued for two years. The experiments were conducted in the governorates of Kafr El-Sheikh Governorate for rice irrigation, Giza Governorate for maize irrigation, and Assiut Governorate for sugarcane irrigation. The study concluded that maximum efficiency occurred when azimuth angle was 0° pointed downwards, a non-significant difference between the measured solar panel tilt angle and the results of the simulation models at a specific fixed angle for irrigating the selected crops. The most suitable tilt angle for the solar panels, which was fixed throughout the year, was 29° in Kafr El-Sheikh Governorate, 26° in Giza Governorate, and 28° in Assiut Governorate. Similarly, the solar irrigation is economical for small holdings of less than 2 acres spread over twenty (20) years with the option of cluster formation amongst farmers while a reservoir would be required for periodic irrigation to reduce operational cost. Finally, there is a necessity to have a backup diesel-powered water pump in case of a malfunction in the mobile pumping unit that operates on solar energy.
Keywords
A mobile solar-powered irrigation pumping; PVSYST MODEL; Tilt angle; Azimuth angle; Solar radiation intensity
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