This project focuses on the evaluation of green hydrogen production through offshore wind energy to facilitate the energy transition. The research aims to create a multi-objective optimization methodology for the integrated design of offshore wind farm-hydrogen system-energy storage systems. Key aspects include determining optimal locations and configurations for wind farms, electrolyser setups, hydrogen production and storage facilities, and energy storage systems. The study will align green hydrogen generation with specific energy demands to maximize the overall value of integrated systems. The research will use the MOHRES software tool for modeling, simulation, and optimization. Applicants with a background in engineering, renewable energy, programming, and mathematical modeling are encouraged to apply. The project will involve real-world case studies to showcase the role of offshore wind and green hydrogen in addressing energy transition challenges. The aim is to provide actionable findings for academia, industry, and policymakers through a blend of technical expertise and interdisciplinary insights.