Author
Listed:
- Chungkuk Jin
(Department of Ocean Engineering and Marine Sciences, Florida Institute of Technology, Melbourne, FL 32901, USA)
- JungHwan Choi
(Law School, Dalian Maritime University, No. 1 Liaoning Road, Dalian 116026, China)
- Changhee Lee
(College of Maritime Sciences, Korea Maritime & Ocean University, 727 Taejong-ro, Busan 49112, Republic of Korea)
- MooHyun Kim
(Department of Ocean Engineering, Texas A&M University, College Station, TX 77843, USA)
Abstract
Maritime transport accounts for approximately 80–90% of global trade and nearly 3% of global greenhouse gas (GHG) emissions. In response, the International Maritime Organization (IMO) adopted an ambitious strategy for net-zero emissions by 2050, critically mandating a Well-to-Wake (WtW) life-cycle assessment for fuels. This framework invalidates fuels produced with high carbon intensity, regardless of their emissions at the point of use, thereby compelling the industry to focus on truly clean and sustainable alternatives. This push positions green hydrogen and ammonia as leading solutions, though they present a distinct trade-off. Hydrogen is an ideal fuel with zero-carbon emission in fuel cells but faces significant storage challenges due to its extremely low volumetric energy density and cryogenic requirements. In contrast, ammonia offers superior energy density and easier handling but contends with issues of toxicity and potentially harmful emissions like nitrous oxide. This paper provides a comprehensive review of this complex landscape, analyzing the production, utilization, and associated techno-economic and geopolitical challenges of using hydrogen and ammonia as future marine fuels, with environmental aspects briefly considered.
Suggested Citation
Chungkuk Jin & JungHwan Choi & Changhee Lee & MooHyun Kim, 2025.
"Sustainable Maritime Decarbonization: A Review of Hydrogen and Ammonia as Future Clean Marine Energies,"
Sustainability, MDPI, vol. 17(24), pages 1-28, December.
Handle:
RePEc:gam:jsusta:v:17:y:2025:i:24:p:11364-:d:1821040
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