Development of Smart EV Charging Station Using Hybrid Power Generation System

Abstract

In today\'s technology-driven world, electricity is one of the most important things in our daily lives. Because we all don\'t know that renewable energy sources run out immediately. So it is time for us to shift our focus from conventional energy sources to unconventional energy production. The hybrid system can be used both in industry and at home. In this project we will generate electricity from unconventional and conventional sources. All renewable energy sources, such as solar energy, wind energy, are used to produce electricity in industry. This paper deals with the use of a solar-electric-wind system in the design of a hybrid energy system. Use of Battery can reduce the need to maintain electrical cables and we can manage the load demand at very high times. The project shows that the renewable hybrid energy system using Supercapcitor. It creates a pollution-free environment.

Introduction

The document discusses the importance and development of renewable energy systems, particularly hybrid systems combining solar and wind power, for clean and sustainable electricity generation. Renewable sources such as sunlight, wind, water, and biomass provide environmentally friendly alternatives to depleting fossil fuels. Hybrid systems store energy in supercapacitors and batteries to ensure continuous power supply under varying weather conditions.

The research emphasizes the integration of solar panels and horizontal axis wind turbines to improve power generation reliability and efficiency, making the system suitable for remote or urban areas. It also highlights the significance of fast electric vehicle (EV) charging stations powered by such hybrid renewable systems.

Key components include solar panels, wind generators, inverters, charge controllers, and display units. Calculations for energy production and system cost are provided based on the number of solar panels and wind turbines used.

Advantages of the hybrid system include:

• Continuous power supply during different weather conditions.

• Low operating and maintenance costs.

• Environmental benefits by reducing emissions.

• Applicability in diverse locations including rural, urban, and industrial settings.

Applications range from distributed power generation, hospitals, hotels, street lighting, to telecommunications infrastructure.

Conclusion

Developing Portable hybrid systems is one of the simplest and most efficient solutions for generating electricity compared to non-renewable energy resources using supercapacitor. Not only is it expensive but it also does not cause environmental damage. Also, it can be used to generate electricity in hilly areas, where it is difficult to transfer electricity in normal ways. Depending on the need the setting can be determined. All the people in the world should be encouraged to use extraordinary resources to generate electricity so that they can be relatively reliable. Longevity, minimal care is one of your best places. It just needs a higher initial investment. As we know the mixed system has additional production costs per unit but uses the resources available effectively. This Hybrid program is also capable of recovering from any accidental or unwanted situation. And the hybrid system is able to harness power in remote and rural areas. So it is clear that the Hybrid system is the best choice.

References

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Copyright

Copyright © 2025 Ms. Vishakha Puram , Prof. Rajendra Bhombe, Dr. Kishor Porate, Prof. Saurabh Bagde. This 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.