Add to ORKGA validated multi-domain 1D particle-reactor model has been developed to simulate packed bed reactor operation. Two main components of the model are: (1) a particle model for simulating the radial distribution of chemical species and temperature within the catalyst particles and (2) a 1D reactor model for solving mass and energy transport along the length of the reactor. The model captures the effect of intra-particle heat and mass transfer phenomena on the reactor performance. Its efficacy and usability is evaluated using a thorough verification and validation campaign. Validation has been carried out through comparisons to analytical solutions for: (a) the transient thermal response of the fixed bed to a step-change in inlet feed temperat...
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...
This work presents further development and validation of the Discrete Ordinates Model for thermal ra...
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...
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 ...
Packed bed reactors are broadly used in industry and are under consideration for novel reactor conce...
A comparison of reactive flows on two distinct scales is presented here (i) Particle resolved direct...
This work presents a comparative study of reactive flow in a realistically packed array of cylindric...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insi...
Packed bed reactors are used in many chemical processes. With the advent of modern computers, flow s...
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...
This work presents further development and validation of the Discrete Ordinates Model for thermal ra...
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...
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 ...
Packed bed reactors are broadly used in industry and are under consideration for novel reactor conce...
A comparison of reactive flows on two distinct scales is presented here (i) Particle resolved direct...
This work presents a comparative study of reactive flow in a realistically packed array of cylindric...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insi...
Packed bed reactors are used in many chemical processes. With the advent of modern computers, flow s...
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...
This work presents further development and validation of the Discrete Ordinates Model for thermal ra...