Ola Olsvik scite author profile

The kinetics of methane pyrolysis were studied in a tubular flow reactor in the temperature range 1200 to 1500°C at atmospheric pressure. To avoid excessive carbon formation the reaction time was short and the methane feed was diluted with hydrogen. Ethene, ethyne, benzene and hydrogen were the main gaseous products. Ethane was observed as a product at very low conversions of methane. More than 90% selectivity was obtained for C2 products. The ratio of ethyne to ethene increased with increasing temperature. The yield of C2 products is limited by gas-phase equilibrium at lower temperatures. Formation of carbon was strongly depressed by hydrogen at higher temperatures. The maximum yield of ethyne was found to increase from about 10% to about 50% when the temperature was increased from 1200 to 1500°C, with hydrogen dilution HZ: CH, = 2: 1. A mechanistic reaction model was used to simulate the pyrolysis of methane at the actual conditions. A sensitivity analysis was performed to evaluate the elementary reactions which influence the formation and consumption of the species in the model system.

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A Model for Reforming on Ni Catalyst with Carbon Formation and Deactivation

Chen

Lødeng

Omdahl

et al. 2001

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Dynamic simulation and optimization of a catalytic steam reformer

Kvamsdal

Svendsen

Olsvik

et al. 1999

Chemical Engineering Science

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Ola Olsvik

Pyrolysis of natural gas: chemistry and process concepts

Deactivation during carbon dioxide reforming of methane over Ni catalyst: microkinetic analysis

Pyrolysis of methane in the presence of hydrogen

A Model for Reforming on Ni Catalyst with Carbon Formation and Deactivation

Dynamic simulation and optimization of a catalytic steam reformer

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