Integrating Offshore Wind and Green Hydrogen: A Systematic Review of Technological Progress and System-Level Challenges

Offshore wind energy is emerging as a vital component of the global transition to renewable energy, leveraging consistent wind conditions and higher power density compared to onshore systems. Integrating variable offshore wind power with hydrogen production via electrolysis provides a strategic pathway to convert surplus electricity into a storable and transportable energy carrier, thereby mitigating grid congestion, curtailment, and variability challenges. This review systematically examines the integration of offshore wind farms and hydrogen production technologies. Key components of the review include a comparative analysis of electrolyzer technologies, their suitability for offshore deployment, and the implications for energy storage and transport. The analysis employs a multi-step framework: (1) extensive search of the literature in scientific databases, (2) qualitative and quantitative assessment of system performance, and (3) synthesis of findings to identify trends and research gaps, enabling a thorough examination of technical challenges in the marine environment, and economic and policy barriers. The review highlights recent advancements, technical challenges, and economic considerations related to deployment of offshore wind-to-hydrogen systems. This review provides a comprehensive understanding of the current state of offshore hydrogen production, identifies research gaps, and outlines policy recommendations to accelerate its deployment. Offshore wind-powered hydrogen emerges as a cornerstone of a resilient, low-carbon energy future. The systematic approach ensures actionable insights and robust conclusions, facilitating the alignment of technological advancements with global decarbonization goals.