Numerical Modeling of Stagnation Flows over Porous Catalytic Surfaces
Karadeniz, Hüseyin
Numerical Modeling of Stagnation Flows over Porous Catalytic Surfaces - KIT Scientific Publishing 2016 - 1 electronic resource (XII, 204 p. p.)
Open Access
In this book, stagnation flows on a catalytic porous plate is modeled one-dimensionally coupled with multi-step surface reaction mechanisms and molecular transport (diffusion and conduction) in the flow field and in the porous catalyst. Internal and external mass transfer limitations as well as possible reaction routes in the catalyst are investigated for CO oxidation, WGS reaction, partial and steam reforming of methane over Rh/Al?O?.
Creative Commons
English
KSP/1000049629 9783731504344
10.5445/KSP/1000049629 doi
Heterogeneous catalysis Stofftransportlimitierungen Reaktion-DiffusionStagnation-flow reactor Staupunktreaktor Reaction-Diffusion Heterogenen Katalyse External and internal mass transfer limitation
Numerical Modeling of Stagnation Flows over Porous Catalytic Surfaces - KIT Scientific Publishing 2016 - 1 electronic resource (XII, 204 p. p.)
Open Access
In this book, stagnation flows on a catalytic porous plate is modeled one-dimensionally coupled with multi-step surface reaction mechanisms and molecular transport (diffusion and conduction) in the flow field and in the porous catalyst. Internal and external mass transfer limitations as well as possible reaction routes in the catalyst are investigated for CO oxidation, WGS reaction, partial and steam reforming of methane over Rh/Al?O?.
Creative Commons
English
KSP/1000049629 9783731504344
10.5445/KSP/1000049629 doi
Heterogeneous catalysis Stofftransportlimitierungen Reaktion-DiffusionStagnation-flow reactor Staupunktreaktor Reaction-Diffusion Heterogenen Katalyse External and internal mass transfer limitation