Hydrogen Production from Seawater Electrolysis

Hydrogen Production from Seawater Electrolysis by Zafar Khan Ghouri, Dilshad Hussain, and David James Hughes offers a timely, authoritative guide to unlocking green hydrogen from the planet’s most abundant resource—seawater.

Discover why seawater electrolysis is emerging as a cornerstone of the clean-energy transition for coastal cities, island nations, and offshore industries. This book presents clear explanations of electrolyzer designs, membrane and catalyst developments, corrosion and impurity management, and system integration with renewables like offshore wind and solar. Rich with practical insights, it bridges lab research and real-world deployment—essential for engineers, policy makers, investors, and students focused on hydrogen production, maritime energy, and sustainable infrastructure.

Learn how technology choices impact cost, efficiency, and environmental performance across regions—from the Asia-Pacific and Middle East to Europe and North America—and what it means for coastal communities and ports seeking energy security and decarbonization. The authors combine technical rigor with accessible language, offering case studies, techno-economic perspectives, and risk-mitigation strategies to accelerate scalable, safe, and cost-effective hydrogen from seawater.

Whether you’re evaluating electrolyzer procurement, designing offshore hydrogen hubs, or shaping regional hydrogen policy, this book equips you with the knowledge to act. Embrace a future powered by clean hydrogen—add this essential resource to your library and lead the next wave of sustainable energy innovation.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.