A Disruptive Innovation for Upgrading Methane to C3 Commodity Chemicals : Technical challenges faced by the C123 European consortium

C123 is a €6.4 million European Horizon 2020 (H2020) integrated project running from 2019 to 2023, bringing together 11 partners from seven different European countries. There are large reserves of stranded natural gas waiting for a viable solution and smaller scale biogas opportunities offering met...

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Veröffentlicht in:	Johnson Matthey technology review 2021-04, Vol.65 (2), p.311-329
Hauptverfasser:	Fonseca, Alvaro Amieiro, Heyn, Richard H., Frøseth, Morten, Thybaut, Joris W., Poissonnier, Jeroen, Meiswinkel, Andreas, Zander, Hans-Jörg, Canivet, Jérôme
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Sprache:	eng
Schlagworte:	Alternative energy sources Biogas Carbon dioxide Catalysis Chemical Sciences Chemicals Commodities Consortia Disruptive innovation Energy industry Enhanced oil recovery Environment and Society Environmental Sciences Hydrogen Innovations Methane Natural gas Natural gas reserves Propylene Technology assessment
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container_title	Johnson Matthey technology review
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creator	Fonseca, Alvaro Amieiro Heyn, Richard H. Frøseth, Morten Thybaut, Joris W. Poissonnier, Jeroen Meiswinkel, Andreas Zander, Hans-Jörg Canivet, Jérôme
description	C123 is a €6.4 million European Horizon 2020 (H2020) integrated project running from 2019 to 2023, bringing together 11 partners from seven different European countries. There are large reserves of stranded natural gas waiting for a viable solution and smaller scale biogas opportunities offering methane feedstocks rich in carbon dioxide, for which utilisation can become an innovation advantage. C123 will evaluate how to best valorise these unexploited methane resources by an efficient and selective transformation into easy-to-transport liquids such as propanol and propanal that can be transformed further into propylene and fed into the US$6 billion polypropylene market. In C123 the selective transformation of methane to C3 hydrocarbons will be realised via a combination of oxidative conversion of methane (OCoM) and hydroformylation, including thorough smart process design and integration under industrially relevant conditions. All C123 technologies exist at TRL3 (TRL = technology readiness level), and the objectives of C123 will result in the further development of this technology to TRL5 with a great focus on the efficient overall integration of not only the reaction steps but also the required purification and separation steps, incorporating the relevant state-of-the-art engineering expertise.
doi_str_mv	10.1595/205651321X16051060155762
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subjects	Alternative energy sources Biogas Carbon dioxide Catalysis Chemical Sciences Chemicals Commodities Consortia Disruptive innovation Energy industry Enhanced oil recovery Environment and Society Environmental Sciences Hydrogen Innovations Methane Natural gas Natural gas reserves Propylene Technology assessment
title	A Disruptive Innovation for Upgrading Methane to C3 Commodity Chemicals : Technical challenges faced by the C123 European consortium
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