Add to ORKGThe work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two widely different scales: direct numerical simulation (capable of accurately predicting transfer phenomena in and around a few particles) and 1D modelling (capable of engineering simulations of industrial scale reactors). Particle-resolved direct numerical simulation (PR-DNS) is performed on a small geometry containing ~100 realistically packed monodisperse spherical particles generated via the discrete element method (DEM). These results are compared to a 1D packed bed reactor model using the effectiveness factor approach to account for intra-particle mass transfer and a suitable closure for gas-particle heat transfer. The differences between...
Modeling catalytic fixed bed reactors with a small tube-to-particle diameter ratio requires a detail...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Packed bed reactors are used in many chemical processes. With the advent of modern computers, flow s...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
This work presents a comparative study of reactive flow in a realistically packed array of cylindric...
Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insi...
Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insi...
The present thesis probes the heat and mass transfer phenomena in packed bed of particles. The gap i...
A validated multi-domain 1D particle-reactor model has been developed to simulate packed bed reactor...
A validated multi-domain 1D particle-reactor model has been developed to simulate packed bed reactor...
Proper selection of a catalyst shape (or a particle shape) can improve the performance of a gas-soli...
A comparison of reactive flows on two distinct scales is presented here (i) Particle resolved direct...
Modeling catalytic fixed bed reactors with a small tube-to-particle diameter ratio requires a detail...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Packed bed reactors are used in many chemical processes. With the advent of modern computers, flow s...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
This work presents a comparative study of reactive flow in a realistically packed array of cylindric...
Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insi...
Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insi...
The present thesis probes the heat and mass transfer phenomena in packed bed of particles. The gap i...
A validated multi-domain 1D particle-reactor model has been developed to simulate packed bed reactor...
A validated multi-domain 1D particle-reactor model has been developed to simulate packed bed reactor...
Proper selection of a catalyst shape (or a particle shape) can improve the performance of a gas-soli...
A comparison of reactive flows on two distinct scales is presented here (i) Particle resolved direct...
Modeling catalytic fixed bed reactors with a small tube-to-particle diameter ratio requires a detail...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Packed bed reactors are used in many chemical processes. With the advent of modern computers, flow s...