分解
制氢
氨生产
氨
比例(比率)
生产(经济)
工艺工程
氢
环境科学
核工程
化学
工程类
物理
有机化学
经济
量子力学
宏观经济学
作者
Sebastian Blauth,Julie Damay,Sebastian Osterroth,Christian Leithäuser,C. Hofmann,Gunther Kolb,M. Wichert,Klaus Steiner,Michael Bortz
标识
DOI:10.1002/cite.202300166
摘要
Abstract A novel reactor concept for ammonia decomposition utilizing tail gas from a purification unit as heat supply is presented. The designed micro‐structured reactor integrates both endothermic ammonia decomposition and exothermic tail gas combustion. The reactor and corresponding process are simulated using a mathematical multi‐scale model, which combines the results of multiple detailed computational fluid dynamics simulations into a fast surrogate model. The latter is coupled with a process simulation software via a so‐called container to simulate the entire process. The efficiency of the presented reactor concept is determined and benefits over alternative approaches are highlighted.
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