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Ignition in adiabatic reactors for oxidative coupling of methane

Guy Marin (UGent)
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Abstract
stract A high effective heat conductivity of the catalyst bed and a narrow residence time distribution are the key requirements for any reactor for oxidative coupling of methane (OCM). Bifurcation analysis shows that this allows a steady state adiabatic and autothermal conversion of methane fed at near ambient temperature by utilizing the thermal power of the exothermic reactions while also maximizing the selectivity towards intermediate C2 products. A gas-solid vortex reactor (GSVR) with a rotating dense fluid bed meets these two requirements, making it a very promising reactor candidate for OCM.
Keywords
oxidative coupling of methane, gas-solid vortex reactor, bifurcation analysis, CFD

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Citation

Please use this url to cite or link to this publication:

MLA
Marin, Guy. “Ignition in Adiabatic Reactors for Oxidative Coupling of Methane.” North American Symposium for Chemical Reaction Engineering, 4th, Abstracts, 2019.
APA
Marin, G. (2019). Ignition in adiabatic reactors for oxidative coupling of methane. In North American symposium for Chemical Reaction Engineering, 4th, Abstracts. Houston, Texas, USA, March 10-13, 2019.
Chicago author-date
Marin, Guy. 2019. “Ignition in Adiabatic Reactors for Oxidative Coupling of Methane.” In North American Symposium for Chemical Reaction Engineering, 4th, Abstracts.
Chicago author-date (all authors)
Marin, Guy. 2019. “Ignition in Adiabatic Reactors for Oxidative Coupling of Methane.” In North American Symposium for Chemical Reaction Engineering, 4th, Abstracts.
Vancouver
1.
Marin G. Ignition in adiabatic reactors for oxidative coupling of methane. In: North American symposium for Chemical Reaction Engineering, 4th, Abstracts. 2019.
IEEE
[1]
G. Marin, “Ignition in adiabatic reactors for oxidative coupling of methane,” in North American symposium for Chemical Reaction Engineering, 4th, Abstracts, Houston, Texas, USA, March 10-13, 2019, 2019.
@inproceedings{8621876,
  abstract     = {{stract
A high effective heat conductivity of the catalyst bed and a narrow residence time distribution are the key
requirements for any reactor for oxidative coupling of methane (OCM). Bifurcation analysis shows that
this allows a steady state adiabatic and autothermal conversion of methane fed at near ambient temperature
by utilizing the thermal power of the exothermic reactions while also maximizing the selectivity towards
intermediate C2 products. A gas-solid vortex reactor (GSVR) with a rotating dense fluid bed meets these
two requirements, making it a very promising reactor candidate for OCM.}},
  author       = {{Marin, Guy}},
  booktitle    = {{North American symposium for Chemical Reaction Engineering, 4th, Abstracts}},
  keywords     = {{oxidative coupling of methane,gas-solid vortex reactor,bifurcation analysis,CFD}},
  language     = {{eng}},
  location     = {{Houston, Texas, USA, March 10-13, 2019}},
  title        = {{Ignition in adiabatic reactors for oxidative coupling of methane}},
  year         = {{2019}},
}