High temperature methanation: Catalyst considerations

•High temperature methanation processes enable more energy-efficient plant design.•The utilised catalysts need to be sufficiently active at low temperatures.•The utilised catalysts need to be resistant against sintering at high temperatures.•The utilised catalysts need to be resistant to other deact...

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Bibliographic Details
Published in:Catalysis today 2013-10, Vol.215, p.233-238
Main Authors: Nguyen, T.T.M., Wissing, L., Skjøth-Rasmussen, M.S.
Format: Article
Language:English
Subjects:
Carbonyl
Catalysis
Chemistry
Exact sciences and technology
General and physical chemistry
Gum
Methanation
Nickel
Sintering
SNG
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
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Summary:•High temperature methanation processes enable more energy-efficient plant design.•The utilised catalysts need to be sufficiently active at low temperatures.•The utilised catalysts need to be resistant against sintering at high temperatures.•The utilised catalysts need to be resistant to other deactivation phenomena, for example gum and carbonyl formation. During the last decade, Substitute Natural Gas (SNG) produced from coal, biomass or other carbonaceous materials has re-emerged and gained considerable attention in some parts of the world where NG or shale gas is not readily available. This process often involves partial oxidation or gasification of the carbon-containing materials to synthesis gas, which subsequently goes through a high temperature methanation step to produce SNG. There are several critical requirements on the methanation catalysts. They need to be sufficiently active at low temperatures, resistant against sintering at high temperatures, and are resistant to other deactivation phenomena, for example gum and carbonyl formation. This contribution illustrates how catalysts are tested for high temperature methanation, taking into account these challenges, in order to allow for more competitive and flexible plant design
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2013.03.035