Dr. Shahroz Anjum | Solar Energy | Best Researcher Award
Power generation engineer | Alliant Energy | United States
Short Bio π
Dr. Shahroz Anjum is a dedicated educator and researcher specializing in electrical engineering with a particular focus on power system optimization and solar energy. With over a decade of experience in academia and research, Dr. Anjum has made significant contributions to the field through her innovative research and commitment to excellence in teaching.
Profile
Education π
Dr. Anjum earned her Ph.D. in Solar Power Optimization from the Indian Institute of Technology (Indian School of Mines) Dhanbad in 2022. Her doctoral thesis, titled “Reconfiguration Strategies to Extract the Maximum Power from Photovoltaic System under Partial Shading Scenarios,” focused on enhancing solar power generation efficiency under challenging environmental conditions. Prior to her doctoral studies, she completed her Master’s in Power System Engineering from Thapar University, Patiala, where her research involved optimizing economic emission dispatch using multi-objective particle swarm optimization. She also holds a Bachelor’s degree in Electrical & Electronics Engineering from the College of Engineering Roorkee, Roorkee.
Professional Experience πΌ
Dr. Anjum’s professional journey includes roles as a Lecturer, Assistant Professor, and Research Scholar at various esteemed institutions. She served as a Research Scholar at the Indian Institute of Technology (Indian School of Mines) Dhanbad from August 2016 to April 2022, where she contributed extensively to research projects focused on advancing solar power technologies. Her experience also includes tenure as an Assistant Professor at Galgotias College of Engineering and Technology, Greater Noida, where she taught courses in Basic Electrical Engineering, Control Systems, and Power Systems.
Research Interests π
Dr. Anjum’s research interests encompass a broad spectrum within electrical engineering, with a particular emphasis on power system emission reduction, optimization of solar photovoltaic systems, and power system stability. Her work aims to address critical challenges in renewable energy integration, leveraging innovative approaches such as SuDoKu-based reconfiguration strategies to maximize power output from solar arrays under partial shading conditions.
Awards π
Dr. Anjum has been recognized for her outstanding contributions to research, receiving accolades for publications such as “Performance analysis of odd-even sudoku framework for solar photovoltaic array subjected to erratic partial shading situations,” published in the Journal of Photonics for Energy in 2023. Her research has garnered attention for its significant impact on advancing solar energy technologies and enhancing power system efficiency.
Publications π
Dr. Anjum has authored numerous peer-reviewed articles in reputable journals, contributing to the body of knowledge in solar power optimization and renewable energy systems. Some notable publications include:
- Performance analysis of odd-even sudoku framework for solar photovoltaic array subjected to erratic partial shading situations
- Published in the Journal of Photonics for Energy, 2023.
- Link to publication
- Cited by 1 article.
- Irregular SuDoKu Modeling of Solar Photovoltaic Arrays for Partial Shading Optimization
- Published in the Arabian Journal for Science and Engineering, 2023.
- Link to publication
- Impact Factor: 2.468.
- Augmenting Power Efficiency by virtue of a Novel Physical Reconfiguration of Solar Photovoltaic Array in tandem with experimental validation
- Published in Energy Technology, 2023.
- Link to publication
- Impact Factor: 2.468.
- Boost in energy generation using robust reconfiguration: A novel scheme for photovoltaic array under realistic fractional partial shadings
- Published in Energy Conversion and Management, 2023.
- Link to publication
- Impact Factor: 3.619.
- Comprehensive analysis of line losses and valuation of energy saving in optimized photovoltaic array subjected to partial shadings
- Published in Energy Conversion and Management, 2023.
- Link to publication
- Impact Factor: 11.533.