Particle-resolved direct numerical simulation (PR-DNS) is known to provide an accurate detailed insight into the local flow phenomena in static particle arrays. Most PR-DNS studies in literature do not account for reactions taking place inside the porous particles. In this study, PR-DNS is performed for catalytic reactions inside the particles using the multifluid approach where all heat and mass transfer phenomena are directly resolved both inside and outside the particles. These simulation results are then used to verify existing 1D model closures from literature over a number of different reaction parameters including different reaction orders, multiple reactions and reactants, interacting reactions, and reactions involving gas volume ge...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Dry reforming of methane (DRM) over nickel in a fixed-bed reactor of spheres was studied experimenta...
A fully resolved direct numerical simulation of flow and heat transfer is presented for slender rand...
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 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 ...
A comparison of reactive flows on two distinct scales is presented here (i) Particle resolved direct...
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...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
The present thesis probes the heat and mass transfer phenomena in packed bed of particles. The gap i...
Packed bed reactors are broadly used in industry and are under consideration for novel reactor conc...
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 ...
Dry reforming of methane (DRM) over nickel in a fixed-bed reactor of spheres was studied experimenta...
A fully resolved direct numerical simulation of flow and heat transfer is presented for slender rand...
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 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 ...
A comparison of reactive flows on two distinct scales is presented here (i) Particle resolved direct...
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...
The work presents a comparison of catalytic gas-solid reactions in a packed bed as simulated on two ...
The present thesis probes the heat and mass transfer phenomena in packed bed of particles. The gap i...
Packed bed reactors are broadly used in industry and are under consideration for novel reactor conc...
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 ...
Dry reforming of methane (DRM) over nickel in a fixed-bed reactor of spheres was studied experimenta...
A fully resolved direct numerical simulation of flow and heat transfer is presented for slender rand...