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Pore‐to‐mesoscale network modeling of heat transfer and fluid flow in packed beds with application to process design

Ming‐Liang Qu, Martin J. Blunt, Xiaolei Fan, Sajjad Foroughi, Zi‐Tao Yu, Qingyang Lin

2023AIChE Journal14 citationsDOIOpen Access PDF

Abstract

Abstract A dual‐network model (DNM) representing the topological characteristics of both the pore space and solid fraction of a packed bed was developed to study coupled incompressible water flow and heat transport from the pore‐scale to mesoscale (μm‐cm) with the consideration of temperature‐dependent fluid viscosity. The DNM was validated and used to study the temperature and velocity at the pore scale and their effects on fluid flow and heat transfer. Then the pore volume of the DNM was varied to illustrate the effect of bed porosity on transport processes, quantifying the trade‐off between flow conditions and heat transfer. This work demonstrates the ability of the DNM to simulate pore‐scale fluid flow and heat transfer simultaneously, which can then be averaged over the entire simulation domain to approximate meso/macroscopic parameters efficiently in relation to the pore geometry.

Topics & Concepts

Heat transferPacked bedPorosityMesoscale meteorologyPorous mediumMechanicsFlow (mathematics)Work (physics)Materials scienceThermodynamicsFluid dynamicsCompressibilityChemistryPhysicsChromatographyComposite materialMeteorologyEnhanced Oil Recovery TechniquesHeat and Mass Transfer in Porous MediaHydrocarbon exploration and reservoir analysis
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