Design and Modelling of Power-shifting Circuit for Hybrid  Power Generation in Rural Area

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Dr. Ravi Mishra; Aniket Khadgi; Devkumar Haladkar; Manvi Zararia; Pawan Shingane; Sanika Khairwar; Vrushali Rahate

Design and Modelling of Power-shifting Circuit for Hybrid Power Generation in Rural Area

Authors: Dr. Ravi Mishra, Aniket Khadgi, Devkumar Haladkar, Manvi Zararia, Pawan Shingane, Sanika Khairwar, Vrushali Rahate

Unique Paper ID: 168808
Volume: 11
Issue: 5
PageNo: 2149-2152

Keywords: No Keywords Found

Abstract:
An effective way to satisfy the energy needs of rural areas is through hybrid power production systems, which integrate renewable energy sources like wind and sun. The idea of power shifting in hybrid power generation systems is examined in this research, with an emphasis on energy distribution optimization to improve dependability and affordability. Power shifting reduces reliance on non-renewable energy by intelligently managing power loads by moving energy demand from peak to off-peak hours or from less dependable to more sustainable power sources. Power shifting can increase energy efficiency, decrease operating costs, and lessen the environmental effect of energy systems in rural areas by using energy storage devices, real-time monitoring, and sophisticated control algorithms In off-grid and impoverished areas, the application of this strategy can greatly increase access to clean and dependable electricity, promoting sustainable development. The study examines a range of power shifting methods, tools, and approaches while taking into account the particular difficulties that rural communities confront, including resource unpredictability, erratic power consumption, and poor grid connectivity. Goals Switch to Hybrid Power: Depending on availability and load demand, switch power from the main grid to a hybrid system powered by wind and solar resources. Energy Stability: Ensure continuous energy for agricultural operations by supplying a steady power supply from the wind-solar hybrid system. Monitoring System: Create a monitoring system that uses an LCD to show important characteristics like power, voltage, and current for in-the-moment power generation analysis.

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Copyright © 2025 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{168808,
        author = {Dr. Ravi Mishra and Aniket Khadgi and Devkumar Haladkar and Manvi Zararia and Pawan Shingane and Sanika Khairwar and Vrushali Rahate},
        title = {Design and Modelling of Power-shifting Circuit for Hybrid  Power Generation in Rural Area},
        journal = {International Journal of Innovative Research in Technology},
        year = {2024},
        volume = {11},
        number = {5},
        pages = {2149-2152},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=168808},
        abstract = {An effective way to satisfy the energy needs of rural areas is through hybrid power production systems, which integrate renewable energy sources like wind and sun. The idea of power shifting in hybrid power generation systems is examined in this research, with an emphasis on energy distribution optimization to improve dependability and affordability. Power shifting reduces reliance on non-renewable energy by intelligently managing power loads by moving energy demand from peak to off-peak hours or from less dependable to more sustainable power sources. Power shifting can increase energy efficiency, decrease operating costs, and lessen the environmental effect of energy systems in rural areas by using energy storage devices, real-time monitoring, and sophisticated control algorithms In off-grid and impoverished areas, the application of this strategy can greatly increase access to clean   and dependable electricity, promoting sustainable development. The study examines a range of power shifting methods, tools, and approaches while taking into account the particular difficulties that rural communities confront, including resource unpredictability, erratic power consumption, and poor grid connectivity. 
  
Goals 
Switch to Hybrid Power: Depending on availability and load demand, switch power from the main grid to a hybrid system powered by wind and solar resources.
Energy Stability: Ensure continuous energy for agricultural operations by supplying a steady power supply from the wind-solar hybrid system. 
Monitoring System: Create a monitoring system that uses an LCD to show important characteristics like power, voltage, and current for in-the-moment power generation analysis.},
        keywords = {},
        month = {October},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 11
Issue: 5
PageNo: 2149-2152

Design and Modelling of Power-shifting Circuit for Hybrid Power Generation in Rural Area

Available:https://ijirt.org/article?manuscript=168808

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8.01 (Year 2024)

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