Lesław Mleczko scite author profile

A comprehensive 10-step kinetic model of the oxidative coupling of methane to C2+ hydrocarbons over a La2O3/CaO catalyst was developed on the basis of kinetic measurements in a microcatalytic fixed-bed reactor covering a wide range of reaction conditions (1 < p O 2 < 20 kPa, 10 < p CH 4 < 95 kPa, 700 < T < 955 °C, 0.76 m Cat/V̇ STP ≤ 250 kg·s/m3). The reaction scheme contains three primary and seven consecutive steps. The conversion of hydrocarbons and of carbon monoxide with oxygen were described by applying Hougen−Watson type rate equations. For the other reactions power-law rate equations were used. From the experimental data kinetic parameters, i.e. frequency factors, apparent activation energies, and adsorption enthalpies, were estimated. With the kinetic model the experimentally determined conversions of methane and oxygen, as well as yields to C2 hydrocarbons and carbon oxides, could be predicted with an average accuracy of ±20%.

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Catalytic oxidative coupling of methane—reaction engineering aspects and process schemes

Mleczko

Baerns

1995

Fuel Processing Technology

123

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Natural Gas to Fuels and Chemicals: Improved Methane Aromatization in an Oxygen‐Permeable Membrane Reactor

et al. 2013

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Formic acid: a future bridge between the power and chemical industries

et al. 2015

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Lesław Mleczko

Sustainable chlorine recycling via catalysed HCl oxidation: from fundamentals to implementation

Comprehensive Kinetics of Oxidative Coupling of Methane over the La₂O₃/CaO Catalyst

Catalytic oxidative coupling of methane—reaction engineering aspects and process schemes

Natural Gas to Fuels and Chemicals: Improved Methane Aromatization in an Oxygen‐Permeable Membrane Reactor

Formic acid: a future bridge between the power and chemical industries

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Lesław Mleczko

Sustainable chlorine recycling via catalysed HCl oxidation: from fundamentals to implementation

Comprehensive Kinetics of Oxidative Coupling of Methane over the La2O3/CaO Catalyst

Catalytic oxidative coupling of methane—reaction engineering aspects and process schemes

Natural Gas to Fuels and Chemicals: Improved Methane Aromatization in an Oxygen‐Permeable Membrane Reactor

Formic acid: a future bridge between the power and chemical industries

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Product

Resources

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Comprehensive Kinetics of Oxidative Coupling of Methane over the La₂O₃/CaO Catalyst