Anvi Mathur

Evaluating the Viability of Electrolyzer Technologies for Integration with Diverse Renewable Energy Sources

Started Feb. 21, 2024

Abstract or project description

As the demand for renewable energy grows, efficient methods for storing excess energy are crucial to ensuring reliable and sustainable power systems. Hydrogen production through water electrolysis provides a promising solution for long-term energy storage. This paper explores the integration of electrolyzers with renewable energy sources, focusing on the advantages and limitations of three key electrolyzer technologies: Proton Exchange Membrane (PEM), Anion Exchange Membrane (AEM), and Alkaline Water Electrolyzers. While PEM and AEM electrolyzers offer high efficiency, rapid response times, and compatibility with intermittent renewables, they face challenges in scaling and cost. Alkaline electrolyzers, the most established technology, excel in large-scale industrial applications but struggle with dynamic operations and hydrogen crossover. The analysis highlights the need for continued advancements in electrolyzer technology to maximize the potential of green hydrogen in grid balancing, decarbonizing industry, sustainable transportation, and distributed hydrogen production. Recommendations for improving electrolyzer performance, reducing costs, and enabling seamless integration with renewable energy are provided to support a cleaner, hydrogen-powered future. Advancing these technologies will be pivotal in unlocking hydrogen's role as a cornerstone of a resilient, low-carbon energy economy.