Continuous DMC synthesis from CO2 and methanol over CeO2 catalyst in fixed bed reactor in presence of dehydrating agent

doi:https://dx.doi.org/10.1021/cs501221q

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Utilizad este identificador para citar o enlazar este documento: http://hdl.handle.net/2072/226257

dc.contributor.author	Bansode, Atul
dc.contributor.author	Urakawa, Atsushi
dc.date.accessioned	2018-01-15T16:03:47Z
dc.date.accessioned	2018-02-15T10:28:47Z
dc.date.available	2018-01-15T16:03:47Z
dc.date.available	2018-02-15T10:28:47Z
dc.date.issued	2014
dc.identifier.uri	http://hdl.handle.net/2072/226257
dc.identifier.uri	http://hdl.handle.net/2072/305896
dc.language.iso	eng
dc.publisher	ACS Publications
dc.relation	ICIQ Foundation
dc.relation	MINECO
dc.relation	Severo Ochoa Excellence Accreditation 2014-2018
dc.relation.ispartof	ACS Catalysis
dc.rights	© 2014 American Chemical Society
dc.subject.other	heterogeneous catalysis
dc.subject.other	CO2 conversion
dc.subject.other	dimethyl carbonate
dc.subject.other	dehydrating agent
dc.subject.other	2-cyanopyridine
dc.subject.other	high pressure
dc.subject.other	methanol
dc.subject.other	conversion
dc.subject.other	continuous flow
dc.subject.other	fixed bed reactor
dc.title	Continuous DMC synthesis from CO2 and methanol over CeO2 catalyst in fixed bed reactor in presence of dehydrating agent
dc.type	info:eu-repo/semantics/article
dc.relation.projectID	SEV-2013-0319
dc.relation.projectID	CTQ2012-34153
dc.identifier.doi	https://dx.doi.org/10.1021/cs501221q
dc.rights.accessLevel	info:eu-repo/semantics/openAccess
dc.description.abstract	Methanol and carbon dioxide are continuously and efficiently converted to dimethyl carbonate (DMC) over CeO₂catalyst using 2-cyanopyrindine as a recyclable dehydrating agent in a fixed bed reactor. The process was operated over a wide range of pressure (1-300 bar) by feeding CO₂ and the stoichiometric amount of methanol and 2-cyanopyrinde mixture into the reactor. The study shows successful demonstration of direct DMC synthesis mediated by dehydrating agent with outstanding methanol conversion (>95%) and dimethyl carbonate selectivity (>99%) under optimized conditions. Remarkably higher reaction rates were achieved compared to those in batch operation.

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