Enric Illana Mahiques scite author profile

The combined discrete element method/computational fluid dynamics (DEM/CFD) approach allows for the description of reacting granular assemblies passed by a gas flow. Especially for thermally thick particles, the spatial resolution of the solid object volumes, their surfaces, and of the interstitial flow domain controls the quality of results while at the same time driving computational costs. To evaluate the differences between resolved and unresolved DEM/CFD approaches, pyrolysis of a bulk of spherical wood particles enclosed by a cylindrical heating surface and passed by hot nitrogen is numerically examined. The unresolved simulation is based on the averaged volume method (AVM). For the resolved simulation, the so‐called blocked‐off (BO) method is applied. The results show that the total mass conversion rate of solid particles into gaseous volatiles is faster when employing the resolved BO approach. The better spatial resolution of local flow field and particle surface representation leads to a more detailed prediction of convective and radiative heat transfer to the particles, but is associated with the penalty of a six‐fold computing time.

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Particle-particle contact heat transfer models in thermal DEM: A model comparison and experimental validation

Fischer

Rodrigues

Kriegeskorte

et al. 2023

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Enric Illana Mahiques

Comparing two IBM implementations for the simulation of uniform packed beds

Convective drying of wood chips: Accelerating coupled DEM-CFD simulations with parametrized reduced single particle models

Investigating the inflow into a granular bed using a locally resolved method

Pyrolysis of Spherical Wood Particles in a Packed Bed – Comparison between Resolved and Unresolved Discrete Element Method/Computational Fluid Dynamics

Particle-particle contact heat transfer models in thermal DEM: A model comparison and experimental validation

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