Steady-state and dynamic modeling of indirect partial oxidation of methane in a wall-coated microchannel

Catalysis Today

Volumn 139, Issue 4, 2009, Pages 312-321

  Karakaya, Mustafa ^a   Avci, Ahmet K ^a   Aksoylu, A Erhan ^a   Önsan, Z Ilsen ^a  

^a BOGAZICI UNIVERSITY   (Turkey)

Author keywords

Dynamic response; Hydrogen production; Methane; Microchannel; Modeling; Partial oxidation

Indexed keywords

CATALYST ACTIVITY; CATALYTIC OXIDATION; CHEMICAL OXYGEN DEMAND; DIFFERENCE EQUATIONS; DYNAMIC MODELS; FLOW RATE; GAS FUEL MANUFACTURE; HYDROGEN; HYDROGEN PRODUCTION; METHANE; MICROCHANNELS; NONMETALS; ONE DIMENSIONAL; OXIDATION; OXYGEN; STEAM ENGINEERING;

ADIABATIC OPERATIONS; AXISYMMETRICAL; COMPUTATIONAL TECHNIQUES; DIMENSIONAL MODELS; DYNAMIC CHARACTERISTICS; DYNAMIC MODELING; DYNAMIC SIMULATIONS; FEED COMPOSITIONS; FEED CONDITIONS; FINITE DIFFERENCES; HYDROGEN YIELDS; INDIRECT PARTIAL OXIDATIONS; LOCAL MINIMUMS; MODELING; OXYGEN FLOW RATES; PARTIAL OXIDATION; REACTOR MODELS; SMALL CHANNELS; STATE BEHAVIORS; STEADY STATES; STEAM FLOWS; STEAM REFORMING; SYSTEM START-UP; TOTAL OXIDATIONS; TRANSPORT RESISTANCES; TUBULAR REACTORS;

DYNAMIC RESPONSE;

EID: 57649086972     PISSN: 09205861     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cattod.2008.02.015     Document Type: Article

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