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Understanding the kinetic behavior of a Mo-V-Te-Nb mixed oxide in the oxydehydrogenation of ethane

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Understanding the kinetic behavior of a Mo-V-Te-Nb mixed oxide in the oxydehydrogenation of ethane

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dc.contributor.author Quintana-Solorzano, R. es_ES
dc.contributor.author Barragan-Rodriguez, G. es_ES
dc.contributor.author Armendariz-Herrera, H. es_ES
dc.contributor.author López Nieto, José Manuel es_ES
dc.contributor.author Valente, Jaime S. es_ES
dc.date.accessioned 2016-05-16T09:26:50Z
dc.date.available 2016-05-16T09:26:50Z
dc.date.issued 2014-12-15
dc.identifier.issn 0016-2361
dc.identifier.uri http://hdl.handle.net/10251/64104
dc.description.abstract Two kinetic models based on Langmuir-Hinshelwood (LH) and Eley-Rideal (ER) mechanisms were developed to describe the oxydehydrogenation of ethane to yield ethylene over a Mo-V-Te-Nb catalyst. Obtained in a lab-scale fixed-bed reactor, experimental data at the steady-state were used to estimate the kinetic models parameters via a nonisothermal regression. Experiments were performed using an ethane, oxygen and nitrogen mixture as feedstock, spanning temperatures from 673 to 753 K, inlet partial pressures of oxygen and ethane between 5.0 and 22.0 kPa, and space-time from 10 to 70 g(cat) h(molethane)- (1). Ethylene, CO and CO2 were the only detected products, the selectivity for ethylene ranged from 76% to 96% for an ethane conversion interval 4-85%. A series of tests feeding ethylene instead of ethane were also performed at 713 K, varying inlet partial pressures and space-time in the same ranges as was done for ethane. Ethylene conversion was relatively low, 3-14%, the dominant product being CO with CO/CO2 ratios from 0.73 to 0.79. The LH mechanism was found to represent better the experimental data. The oxydehydrogenation of ethane was the reaction with the lowest activation energy, 108-115 kJ mol (1). Except for the conversion of ethane into CO2, deep oxidations were detected as very energetically demanding steps, 156-193 kJ mol (1). Competitive adsorption between reagents and products occurred in the two mechanisms particularly at relatively high reaction severity, water re-adsorption being weaker in comparison with COx re-adsorption. (C) 2014 Elsevier Ltd. All rights reserved. es_ES
dc.description.sponsorship This work was financially supported by the Instituto Mexicano del Petroleo. en_EN
dc.language Inglés es_ES
dc.publisher Elsevier es_ES
dc.relation.ispartof Fuel es_ES
dc.rights Reserva de todos los derechos es_ES
dc.subject Kinetic study es_ES
dc.subject Mo-V-Te-Nb mixed oxide es_ES
dc.subject Catalyst es_ES
dc.subject Oxydehydrogenation es_ES
dc.subject Ethane es_ES
dc.subject Ethylene es_ES
dc.title Understanding the kinetic behavior of a Mo-V-Te-Nb mixed oxide in the oxydehydrogenation of ethane es_ES
dc.type Artículo es_ES
dc.identifier.doi 10.1016/j.fuel.2014.07.051
dc.rights.accessRights Abierto es_ES
dc.contributor.affiliation Universitat Politècnica de València. Instituto Universitario Mixto de Tecnología Química - Institut Universitari Mixt de Tecnologia Química es_ES
dc.description.bibliographicCitation Quintana-Solorzano, R.; Barragan-Rodriguez, G.; Armendariz-Herrera, H.; López Nieto, JM.; Valente, JS. (2014). Understanding the kinetic behavior of a Mo-V-Te-Nb mixed oxide in the oxydehydrogenation of ethane. Fuel. 138:15-26. doi:10.1016/j.fuel.2014.07.051 es_ES
dc.description.accrualMethod S es_ES
dc.relation.publisherversion http://dx.doi.org/10.1016/j.fuel.2014.07.051 es_ES
dc.description.upvformatpinicio 15 es_ES
dc.description.upvformatpfin 26 es_ES
dc.type.version info:eu-repo/semantics/publishedVersion es_ES
dc.description.volume 138 es_ES
dc.relation.senia 289557 es_ES
dc.contributor.funder Instituto Mexicano del Petróleo es_ES


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