This article explores the benefits of transitioning from traditional agricultural
irrigation systems to more cost-effective alternatives powered by renewable energy sources. By
integrating solar photovoltaic technology into irrigation processes, significant reductions in resource
wastage, estimated at 45-50%, are achievable through the implementation of drip irrigation
techniques. This results in enhanced agricultural productivity. Moreover, the utilization of solar
panels in green zones mitigates surface temperature increases, contributing to a 2-5% boost in
electricity production. Currently, irrigation facilities primarily rely on the main energy grid.
However, transitioning to renewable energy sources decreases reliance on non-renewable fuels,
reduces greenhouse gas emissions, and fosters ecological improvements. Photoelectric stations offer
an eco-friendly and economical electricity source, enhancing the Republic's power system. Gridconnected photovoltaic plants alleviate strain on the grid and fully satisfy the energy demands of
irrigation pumps. Design analyses of a solar photovoltaic plant were conducted utilizing the PVsyst
program to ascertain its capacity to power pumping stations and determine solar energy potential.
This article explores the benefits of transitioning from traditional agricultural
irrigation systems to more cost-effective alternatives powered by renewable energy sources. By
integrating solar photovoltaic technology into irrigation processes, significant reductions in resource
wastage, estimated at 45-50%, are achievable through the implementation of drip irrigation
techniques. This results in enhanced agricultural productivity. Moreover, the utilization of solar
panels in green zones mitigates surface temperature increases, contributing to a 2-5% boost in
electricity production. Currently, irrigation facilities primarily rely on the main energy grid.
However, transitioning to renewable energy sources decreases reliance on non-renewable fuels,
reduces greenhouse gas emissions, and fosters ecological improvements. Photoelectric stations offer
an eco-friendly and economical electricity source, enhancing the Republic's power system. Gridconnected photovoltaic plants alleviate strain on the grid and fully satisfy the energy demands of
irrigation pumps. Design analyses of a solar photovoltaic plant were conducted utilizing the PVsyst
program to ascertain its capacity to power pumping stations and determine solar energy potential.
№ | Имя автора | Должность | Наименование организации |
---|---|---|---|
1 | Nosirov .. | Professor | Tashkent State Technical University, Tashkent city |
2 | Uroqov .. | Student | Tashkent State Technical University, Tashkent city |
3 | Arzikulov .. | Candidate of Mathematical Sciences | Tashkent State Technical University, Tashkent city |
4 | Sayfutdinova .. | Student | Tashkent State Technical University, Tashkent city |
№ | Название ссылки |
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1 | 1. Solar energy training manual: Yuldoshev I.A., Tursunov M.N., Shogochkarov S.Q., Jamolov T.R., - Tashkent "Sano-standart" publishing house, 2019, 45-47 2. "Solar energy" subject: [Text] textbook/. Yuldashev I.A., Sultanov M.Q., Yuldashev F.M.- Tashkent: "Bookany print," 2022, p. 55-56. 3. Vissarinov V.I., Derugina G.B., Kusnetsova V.A., Malinin N.K., "Solnechnaya energetika", Uchebnoe posobie dlya Vuzov. Moscow. Izdatelsky dom MEI. 2008 35-40 p. 4. Irrigation melioration, study guide for higher educational institutions. - T.: TIQXMMI, 2019: 4-5 5. Methodological instructions for performing laboratory exercises in the subject "Solar energy". Yuldoshev I.A., Shoguchkarov S.Q., Jamolov T.R., Gafurov D.S., Karshiyeva N.H., Jurayeva Z.I. - Tashkent: ToshDTU, 2019. 5-10 . |
2 | 6. E. B. Saitov Photoelectric batteries and device technologies science. T: ToshDTU, 2019, 85 7. Hydraulic energy storage of wind power plants, B. Urishev, F. Nosirov, N. Ruzikulova: E3S Web Conf. 383 04052 (2023) DOI: 10.1051/e3sconf/202338304052 8. A. D. Jones and G. Ejeta, "A new global agenda for nutrition and health: The importance of agriculture and food systems," Bulletin of the World Health Organization, vol. 94, no. 3, pp. 228229, 2016. Available: https://www.who.int/bulletin/volumes/94/3/15- 164509/en/ [Accessed Sep. 20, 2019] |
3 | 9. M. Mukhammadiev, B. Urishev, A. Abdulaziz uulu, U. J. Kuvatov, H. Murodov, Solar energy application for power supply of pump installations for irrigation of agricultural plants "Alternative and renewable energy development trends: problems and solutions" 2021: 265- 267 10. Akbar Sarvar Ogli, U., Javakhir Sherzod Ogli, A., & Shahista Qahramonovna, Z. (2024). Use Of Biological Factors In Protecting The Panels Of Photoelectric Stations Against Dust. Horizon: Journal of Humanities and Artificial Intelligence, 3(1): 60–65 https://univerpubl.com/index.php/horizon/article/view/30 85 11. Kabbaj, M. N. (2022). A novel algorithm for optimal sizing of stand-alone photovoltaic pumping systems. International Journal of Power Electronics and Drive Systems. 50-52 |