甲醇
氢
能量载体
制氢
甲醇重整装置
氢燃料
零排放
工艺工程
可再生能源
废物管理
环境科学
蒸汽重整
计算机科学
工程类
化学
电气工程
有机化学
作者
B. S. Thirumalesh,Ramesh Asapu
标识
DOI:10.1002/cben.202300068
摘要
Abstract Green hydrogen is the energy carrier set in the roadmap to achieve the net zero target. However, hydrogen as the future energy vector, either in compressed gaseous form or liquefied form, demands a complete overhaul of storage and transportation infrastructure at a global scale. Methanol is one of the commercially viable hydrogen carriers that can overcome the infrastructure challenges associated with the storage and transportation of hydrogen. As a sustainable hydrogen carrier, methanol must be reformed to hydrogen prior to the point of usage. This review begins with a detailed discussion on thermocatalytic methanol reforming, catalysts, operating conditions, and the associated challenges for both stationary and mobility applications. An in‐depth analysis of the existing commercial methanol reformers available for on‐board and onsite hydrogen generation is also presented. The current state of the research‐level photo‐ and electroreforming as a possible alternative to thermocatalytic reforming is reviewed and concludes with the future prospects for methanol reforming.
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