Technology of obtaining ethylene by catalytic oxycondensation of methane

The results of studying the kinetic laws of the methane oxycondensation reaction in the conditions of a flow differential reactor (length 650 mm, internal diameter 8 mm) are presented in the article. The kinetic laws of the process in the conditions of the differential reactor have been studied. As...

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Hauptverfasser:	Rakhmatov, Shokirjon, Fayzullaev, Normurоt
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Ethylene Kinetic equations Methane Sodium molybdate Zirconium dioxide
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creator	Rakhmatov, Shokirjon Fayzullaev, Normurоt
description	The results of studying the kinetic laws of the methane oxycondensation reaction in the conditions of a flow differential reactor (length 650 mm, internal diameter 8 mm) are presented in the article. The kinetic laws of the process in the conditions of the differential reactor have been studied. As a result of research, the following optimal reaction conditions have been chosen: (Mn2O3)x·(Na2MoO4)y·(ZrO2)z; Pgeneral=0.1MPa, Pmethane=0.033MPa, Poxygen=0.014MPa, T=750 oC, Wgeneral=1000 h−1. Based on the obtained results, the transition mechanism of the reaction has been proposed and the kinetic equation has been derived. In addition, an energy and resource-efficient technological scheme for obtaining ethylene from methane has been proposed.
doi_str_mv	10.1063/5.0197589
format	Conference Proceeding
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The kinetic laws of the process in the conditions of the differential reactor have been studied. As a result of research, the following optimal reaction conditions have been chosen: (Mn2O3)x·(Na2MoO4)y·(ZrO2)z; Pgeneral=0.1MPa, Pmethane=0.033MPa, Poxygen=0.014MPa, T=750 oC, Wgeneral=1000 h−1. Based on the obtained results, the transition mechanism of the reaction has been proposed and the kinetic equation has been derived. 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The kinetic laws of the process in the conditions of the differential reactor have been studied. As a result of research, the following optimal reaction conditions have been chosen: (Mn2O3)x·(Na2MoO4)y·(ZrO2)z; Pgeneral=0.1MPa, Pmethane=0.033MPa, Poxygen=0.014MPa, T=750 oC, Wgeneral=1000 h−1. Based on the obtained results, the transition mechanism of the reaction has been proposed and the kinetic equation has been derived. In addition, an energy and resource-efficient technological scheme for obtaining ethylene from methane has been proposed.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/5.0197589</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Ethylene Kinetic equations Methane Sodium molybdate Zirconium dioxide
title	Technology of obtaining ethylene by catalytic oxycondensation of methane
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