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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.
 

  • Web Address
  • DOI
  • Date of creation in the UzSCI system 24-04-2024
  • Read count 61
  • Date of publication 20-04-2024
  • Main LanguageIngliz
  • Pages44-51
English

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.
 

Name of reference
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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
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