We compare the environmental impact of hydrogen production routes by life cycle analysis. Hydrogen is used in power systems, transportation, hydrocarbon and ammonia production, and metallugical industries. Overall, combining electrolysis-generated hydrogen with hydrogen storage in underground porous media ...
In this state-of-the-art review, we explore hydrogen production methods, compare their environmental impacts through life cycle analysis, delve into geological storage options, and discuss hydrogen’s potential as a future transportation fuel. Combining electrolysis to make hydrogen and storing it in ...
Hydrogen production and storage 来自 掌桥科研 喜欢 0 阅读量: 19 申请(专利)号: GB20090009325 申请日期: 2009-05-29 公开/公告号: GB0909325D0 公开/公告日期: 2009-07-15 申请(专利权)人: UCL BUSINESS PLC 摘要: The present invention relates to a material system comprising a solid ...
With a focus on power generation and transportation sectors; the state of present-day hydrogen production, distribution, storage and power conversion technology is discussed and analysed. Also of interest in this paper is the review of future technology options in aerospace that can be realised with...
Blended hydrogen production refers to the process of producing hydrogen from a combination of different feedstocks or energy sources, such as natural gas, coal, biomass, and renewable energy sources like wind and solar power. From: Journal of Energy Storage, 2023 ...
As concerns biomass, its sources as feedstock for hydrogen production, and the advances in thermochemical and biological hydrogen production are described. On the other hand, hydrogen purification and storage, continue being key challenges that could limit the future use of hydrogen irrespective of its...
Focusing on the production, transport, storage, safety and environmental aspects of hydrogen fuel, this book also presents various production methods including natural gas, coal, nuclear energy, wind energy, biomass, photobiological processes, solar energy and electrolysis. 被引量: 59 年份: 2009 收...
an analysis of factors determining the ultimate cost for this hydrogen, including expenses for production, storage, conversion, transport, and treatment at the destination. It concludes that the Chinese source could be delivered at a volume and cost consistent with Japan’s idealized future ...
This method eliminates the requirement of expensive high-pressure H2 gas and reducing agents such as MgH2. Among novel metallic alloys, metallic glasses have gained significant attention in terms of safe and efficient hydrogen storage and release and other energy applications in nano (assembly) or ...
Disclosed is a hydrogen storage material and a production method thereof. The hydrogen storage material has a carbon material having: an interlayer space for hydrogen occlusion, produced by removal at least a portion of an organic compound from a graphite intercalation compound comprising graphite and...