Emerging paradigms in renewable hydrogen production: Technology, challenges, and global impact

Abstract

Hydrogen production from renewable sources has emerged as a promising solution for achieving a sustainable energy future. This review article provides a comprehensive analysis of the latest innovations and challenges associated with renewable hydrogen production, focusing on technological advancements, industrial applications, and future directions. Key methods for renewable hydrogen production, including electrolysis, photoelectrochemical processes, and thermochemical cycles, are explored in detail, highlighting recent progress in improving efficiency and reducing costs. The article also examines the role of renewable hydrogen in various industrial sectors, including chemical manufacturing, energy storage, and power generation, emphasizing its potential to significantly reduce carbon emissions and support grid stability. Case studies from Germany, Japan, and Australia illustrate real-world applications and challenges in implementing renewable hydrogen technologies, showcasing the impact of supportive policies, investment, and infrastructure development. Despite significant advancements, challenges such as high production costs, infrastructure needs, and integration with existing systems persist. Future research is poised to address these issues through innovations in electrolysis and catalysis, hybrid renewable systems, and the application of artificial intelligence for process optimization. The article concludes by underscoring the critical role of continued investment, policy support, and technological evolution in realizing the full potential of renewable hydrogen. As the industry progresses, renewable hydrogen is expected to become a central component of a low-carbon energy system, contributing to global sustainability goals and climate change mitigation efforts.