The general objective of this thesis was to explore the potential of in-situ H2O removal during fuel-related synthesis reactions with focus on in-situ H2O removal by hydrophilic membranes and by chemical reaction. It is demonstrated that in-situ H2O removal through vapour permeation during CO2 hydrogenation to Fischer-Tropsch hydrocarbons and during DME/DEE synthesis leads to increased conversion and yield levels, which are directly linked to the degree of H2O recovery.
Umfang: IV, 244 S.
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Rohde, M. 2011. In-situ H2O removal via hydorphilic membranes during Fischer-Tropsch and other fuel-related synthesis reactions. Karlsruhe: KIT Scientific Publishing. DOI: https://doi.org/10.5445/KSP/1000022232
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Veröffentlicht am 15. Juni 2011
Englisch
258
Paperback | 978-3-86644-640-3 |