OPTIMIZING BATTERY TOPOLOGY FOR ENHANCED LIFESPAN AND REDUCED STRESS THROUGH INNOVATIVE CURRENT FLOW MANAGEMENT APPROACHES

Authors

  • Aniket K. Tandel
  • Dr. Piyush S. Jain
  • Dr. Darshini Shukla

DOI:

https://doi.org/10.53555/ephijse.v11i1.311

Keywords:

environmental, management, TOPOLOGY

Abstract

In an era prioritizing environmental sustainability, this paper addresses a key challenge in solar-powered electric vehicles (EVs): optimizing energy flow within batteries. Focusing on the variable nature of solar energy, which often leads to inconsistent charging and reduced battery life, the study proposes a novel control system. This system employs advanced algorithms and battery management techniques to adapt to solar fluctuations, harmonizing charging and discharging cycles. Significant improvements include enhanced battery lifespan and solar power utilization efficiency, contributing to a 6.5% increase in vehicle range. This research underlines the potential for more efficient, eco-friendly solar EVs, advancing sustainable transportation technology.

Author Biographies

Aniket K. Tandel

PhD Scholar, Gujarat Technological University, Ahmedabad, Gujarat, India. PIN-382424

Dr. Piyush S. Jain

Professor & PhD Supervisor, SNPIT College

Affiliated to Gujarat Technological University, Ahmedabad, Gujarat, India. PIN382424.

Dr. Darshini Shukla

3Professor & PhD Supervisor, Dr. S. & S.S. Gandhi College, Surat.

Affiliated to Gujarat Technological University, Ahmedabad, Gujarat, India. PIN382424.

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Published

2025-05-12

Issue

Vol. 11 No. 1 (2025): International Journal of Science And Engineering (ISSN: 2454-2016)

Section

Articles