A Novel Technology for Natural Gas Conversion by Means of Integrated Oxidative Coupling and Dry Reforming of Methane

A novel process concept for the oxidative coupling of methane followed by the oligomerization to liquids has been developed within the frame of the EU integrated project OCMOL. This technology is based on process intensification principles via cutting‐edge structured microreactor technology. It is a...

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Veröffentlicht in:	Chemie ingenieur technik 2014-11, Vol.86 (11), p.1855-1870
Hauptverfasser:	Thybaut, Joris W., Marin, Guy B., Mirodatos, Claude, Schuurman, Yves, van Veen, Andre C., Sadykov, Vladislav A., Pennemann, Helmut, Bellinghausen, Rainer, Mleczko, Leslaw
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Sprache:	eng
Schlagworte:	Byproducts Catalysis Catalysts Chemical Sciences Environment and Society Environmental Sciences Joining Liquids Methane Natural gas Oxidative Coupling Process Intensification Reactor design Reforming
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creator	Thybaut, Joris W. Marin, Guy B. Mirodatos, Claude Schuurman, Yves van Veen, Andre C. Sadykov, Vladislav A. Pennemann, Helmut Bellinghausen, Rainer Mleczko, Leslaw
description	A novel process concept for the oxidative coupling of methane followed by the oligomerization to liquids has been developed within the frame of the EU integrated project OCMOL. This technology is based on process intensification principles via cutting‐edge structured microreactor technology. It is also a fully integrated industrial process through the re‐use and the recycling of by‐products, in particular CO2, at every process stage. The focus of this contribution is on the reaction engineering aspects of the core steps, i.e., catalysts, kinetics and reactor design for the methane coupling and reforming. In the future, natural gas will replace crude oil in energy supply and feedstock generation because it is broadly available and has a lower price. Oxidative coupling of methane followed by oligomerization to liquids has been investigated as a means of converting the natural gas to higher hydrocarbons, including the catalyst concepts and reactor design.
doi_str_mv	10.1002/cite.201400068
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subjects	Byproducts Catalysis Catalysts Chemical Sciences Environment and Society Environmental Sciences Joining Liquids Methane Natural gas Oxidative Coupling Process Intensification Reactor design Reforming
title	A Novel Technology for Natural Gas Conversion by Means of Integrated Oxidative Coupling and Dry Reforming of Methane
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