OPTIMAL SIZING OF THE AUTONOMOUS SOLAR HYDROGEN HYBRID POWER PLANT
Alt Text: Optimal Sizing of the Autonomous Solar Hydrogen Hybrid Power Plant
Title: Optimizing Solar Hydrogen Hybrid Power Plants: A Linear Programming Approach
Caption: Solar Hydrogen Hybrid Power Optimization
Description: Explore advanced optimization techniques for designing efficient solar hydrogen hybrid power plants, integrating PV systems, electrolyzers, and fuel cells.
Keywords: PV system, fuel cell, electrolyzer, hybrid system, linear programming optimization
International Journal of Engineering and Techniques – Volume 11 Issue 1, January-Feb 2025
Dr. Kamala Devi V1, Pramod N.E2, Sandra A. S3, Dr. R.M. Shereef4
1,2,3,4Research And Development Electrical and Electronics Engineering, ANERT, Trivandrum, India
4College of Engineering, Trivandrum, India
Email: kamala@anert.in, pramod@anert.in, assandra549@gmail.com, rmshereef@gmail.com
Abstract
Global warming highlights the urgent need for alternative energy sources, with Kerala embracing solar rooftop installations for shade-free rooftops and remote areas using autonomous systems. This paper optimizes hybrid solar photovoltaic (PV) power plants integrating solar panels, electrolyzers (ELZ), and proton-exchange membrane fuel cells (PEMFC). Using Linear Programming (LP) to size system components, this approach balances cost-efficiency while maintaining performance during low sunlight and high energy demands…
Keywords
PV system, fuel cell, electrolyzer, hybrid system, linear programming optimization
How to Cite
Dr. Kamala Devi V, Pramod N.E, Sandra A. S, Dr. R.M. Shereef, “Optimal Sizing of the Autonomous Solar Hydrogen Hybrid Power Plant,” International Journal of Engineering and Techniques, Volume 11, Issue 1, Jan-Feb 2025. ISSN 2395-1303
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