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Dr Anindita Roy

Mechanical Engineering · Symbiosis Institute of Technology

https://researchid.co/anindita.roy
@sitpune.edu.in
49Scopus Publications
687Google Scholar Citations
12Google Scholar h-index
17Google Scholar i10-index

Research Interests

Renewable Energy Integration Modelling and simulation of renewable energy systems Fast charging of lead acid batteries

Biography

Dr Anindita Roy is a renewable energy technologist, currently an associate professor in Mechanical Engineering Department at Symbiosis Institute of Technology, Pune. She is a doctorate from Department of Energy Science & Engineering at IIT Bombay and a masters in Energy Management from DAVV, Indore. Her research interests are indigenization of small wind turbines, modeling and simulation of hybrid renewable Energy Systems, thermocline-based energy storage, O&M of lead acid battery-based systems, and fast charging solutions for electrical vehicles. In her PhD, she worked on the optimal design of Isolated Wind-battery Power Systems. She has authored a Book with Springer Nature on ‘Wind Power Based Isolated Energy Systems’ She was instrumental in setting up the “Battery and Solar Energy laboratory “at PCCoE which offers training, testing and consultancy services in Collaboration with Customized Energy Solutions (CES).

Education

PhD (Energy Science & Engineering), IIT Bombay, 2011 M.Tech (Energy Management) , Devi Ahilya VishwaVidyalaya, Indore, 2001 B.E (Mechanical Engineering) ,, Bhavnagar University, Gujarat

Recent Scopus Publications

  1. Artificial intelligence driven sustainability in tomato supply chains optimization a systematic review
    Discover Sustainability, 2026
  2. Experimental Data-Driven Machine Learning Analysis for Prediction of PCM Charging and Discharging Behavior in Portable Cold Storage Systems
    Sustainability Switzerland, 2026
  3. A bibliometric review of hydrogen fuel cell research: trends in safety, reliability, and performance analysis (2020–2024)
    International Journal of Sustainable Energy, 2026
  4. Optimal design of phase change material integrated cold rooms for sustainable cold-chain management
    Energy Conversion and Management, 2026
  5. Reliability analysis of heating ventilation and air-conditioning (HVAC) system of passenger cars using field failure data
    Results in Engineering, 2026

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