Year : 2024 | Volume : 11 | Issue : 03 | Page : 1 13

Ram Kumar Tadgude,

Harshajeet Suresh Patil,

Harshada Anil Yewale,

Dipali Bhausaheb Dighe,

Mithil Vishnu Marewar,

Professor, Department of Mechanical Engineering, P G moze College of Engineering, Maharashtra, India
Student, Department of Mechanical Engineering, P G moze College of Engineering, Maharashtra, India
Student, Department of Mechanical Engineering, P G moze College of Engineering, Maharashtra, India
Student, Department of Mechanical Engineering, P G moze College of Engineering, Maharashtra, India
Student, Department of Mechanical Engineering, P G moze College of Engineering, Maharashtra, India

Abstract

The International Institute of Refrigeration estimates that air conditioning and refrigeration use 15% of the world’s electricity and contribute to the emission of CO2, HCFCs, and other harmful chemicals. Global warming is one of the many negative effects of using such refrigerants on our environment. The efficiency of the car is impacted by the increased fuel consumption for air conditioning. Thermoelectric air conditioning can be utilized to solve the emission issue and balance the supply and demand for energy consumption. The development and use of plate-based thermal electricity generator (TEG) systems to facilitate electric vehicle (EV) charging are examined in this article. TEG technology harnesses waste heat from various sources, converting it into electrical energy, which can significantly enhance the sustainability and efficiency of EV charging systems. By integrating plate-based TEGs into existing infrastructure, such as roads and parking areas, this approach capitalizes on ambient temperature differentials to generate power. The article examines the efficiency of different TEG materials, design considerations, and potential energy output under varying environmental conditions. It also talks about the monetary and environmental benefits of installing thermoelectric generators in cities, emphasizing how they can lessen dependency on conventional energy sources and encourage the usage of renewable energy in the EV ecosystem. According to the investigations, plate-based TEG technologies are a promising development for EV charging in the future, helping to create a more sustainable and environmentally friendly transportation ecosystem.

Keywords: TEG Plates, compressor, condenser, EV.

[This article belongs to Journal of Refrigeration, Air conditioning, Heating and ventilation ]

How to cite this article:
Ram Kumar Tadgude, Harshajeet Suresh Patil, Harshada Anil Yewale, Dipali Bhausaheb Dighe, Mithil Vishnu Marewar. Thermoelectric Generator Plate-based EV Charging Solutions. Journal of Refrigeration, Air conditioning, Heating and ventilation. 2024; 11(03):1-13.

How to cite this URL:
Ram Kumar Tadgude, Harshajeet Suresh Patil, Harshada Anil Yewale, Dipali Bhausaheb Dighe, Mithil Vishnu Marewar. Thermoelectric Generator Plate-based EV Charging Solutions. Journal of Refrigeration, Air conditioning, Heating and ventilation. 2024; 11(03):1-13. Available from: https://journals.stmjournals.com/jorachv/article=2024/view=191618

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Regular Issue Subscription Review Article

Journal of Refrigeration, Air conditioning, Heating and ventilation

ISSN: 2394-1952

Volume	11
Issue	03
Received	11/10/2024
Accepted	30/10/2024
Published	31/12/2024

157

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