Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study
The integration of hydrogen energy into the maritime industry requires a comprehensive evaluation of the life cycle of hydrogen fuel, encompassing all stages from production to operational use in ships. This research aims to analyze the entire technology chain of marine hydrogen fuel. Six methods of...
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sg-ntu-dr.10356-1720322023-11-20T02:21:15Z Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study Wang, Zhe Zhao, Fan Dong, Bo Wang, Dongxing Ji, Yulong Cai, Wenjian Han, Fenghui Energy Research Institute @ NTU (ERI@N) Engineering::Maritime studies Life Cycle Assessment Hydrogen Fuelled Ships The integration of hydrogen energy into the maritime industry requires a comprehensive evaluation of the life cycle of hydrogen fuel, encompassing all stages from production to operational use in ships. This research aims to analyze the entire technology chain of marine hydrogen fuel. Six methods of hydrogen production, including steam methane reforming, coal gasification, coke oven gas, propane dehydrogenation, water electrolysis, and biomass gasification, are evaluated with regard to their energy consumption, environmental sustainability, and economic cost. The life cycle assessment is divided into two processes: hydrogen production and hydrogen fuel cell ship application. Calculations are based on a real-world case study of Dalian Port in China. A sensitivity analysis is also performed to assess the impact of various ship-specific conditions, such as speed, route distance, and transportation conditions, on the performance of hydrogen fuel-powered ships. The findings indicate that the current power cost structure does not necessarily make electrolytic hydrogen production the most environmentally responsible option. In the long-range route, the life cycle cost of water electrolysis is 2.49×106USD. Among the six methods, coke oven gas hydrogen supply method produces the highest carbon emissions. The optimal sailing speed of hydrogen fuel cell ships is between 14 and 14.5kn. This work was funded by the CNOOC Marine Environment and Ecological Protection Public Welfare Foundation Project (CF-MEEC/TR/ 2023–9), the Open Fund of National Center for International Research of Subsea Engineering Technology and Equipment (3132023358), Dalian High Level Talent Innovation Support Program (2021RQ132), China Postdoctoral Science Foundation (2020M680928), Natural Science Foundation of Liaoning Province (2022-MS-154), the National Key Research and Development Program of China (2019YFE0116400), 111 Project (B18009). 2023-11-20T02:21:15Z 2023-11-20T02:21:15Z 2023 Journal Article Wang, Z., Zhao, F., Dong, B., Wang, D., Ji, Y., Cai, W. & Han, F. (2023). Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study. Ocean Engineering, 281, 114740-. https://dx.doi.org/10.1016/j.oceaneng.2023.114740 0029-8018 https://hdl.handle.net/10356/172032 10.1016/j.oceaneng.2023.114740 2-s2.0-85158855450 281 114740 en Ocean Engineering © 2023 Elsevier Ltd. All rights reserved. |
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Engineering::Maritime studies Life Cycle Assessment Hydrogen Fuelled Ships Wang, Zhe Zhao, Fan Dong, Bo Wang, Dongxing Ji, Yulong Cai, Wenjian Han, Fenghui Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| description |
The integration of hydrogen energy into the maritime industry requires a comprehensive evaluation of the life cycle of hydrogen fuel, encompassing all stages from production to operational use in ships. This research aims to analyze the entire technology chain of marine hydrogen fuel. Six methods of hydrogen production, including steam methane reforming, coal gasification, coke oven gas, propane dehydrogenation, water electrolysis, and biomass gasification, are evaluated with regard to their energy consumption, environmental sustainability, and economic cost. The life cycle assessment is divided into two processes: hydrogen production and hydrogen fuel cell ship application. Calculations are based on a real-world case study of Dalian Port in China. A sensitivity analysis is also performed to assess the impact of various ship-specific conditions, such as speed, route distance, and transportation conditions, on the performance of hydrogen fuel-powered ships. The findings indicate that the current power cost structure does not necessarily make electrolytic hydrogen production the most environmentally responsible option. In the long-range route, the life cycle cost of water electrolysis is 2.49×106USD. Among the six methods, coke oven gas hydrogen supply method produces the highest carbon emissions. The optimal sailing speed of hydrogen fuel cell ships is between 14 and 14.5kn. |
| author2 |
Energy Research Institute @ NTU (ERI@N) |
| author_facet |
Energy Research Institute @ NTU (ERI@N) Wang, Zhe Zhao, Fan Dong, Bo Wang, Dongxing Ji, Yulong Cai, Wenjian Han, Fenghui |
| format |
Article |
| author |
Wang, Zhe Zhao, Fan Dong, Bo Wang, Dongxing Ji, Yulong Cai, Wenjian Han, Fenghui |
| author_sort |
Wang, Zhe |
| title |
Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| title_short |
Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| title_full |
Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| title_fullStr |
Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| title_full_unstemmed |
Life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| title_sort |
life cycle framework construction and quantitative assessment for the hydrogen fuelled ships: a case study |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172032 |
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1783955525573017600 |