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Study of filtered interphase heat transfer using <scp>highly resolved CFD–DEM</scp> simulations

He Lei, Li‐Tao Zhu, Zheng‐Hong Luo

2020AIChE Journal40 citationsDOI

Abstract

Abstract Accurately predicting the complex inhomogeneous heat transfer behavior in gas–solid fluidized beds is of fundamental importance. In this work, we constitute an enhanced filtered interphase heat transfer coefficient (IHTC) closure by systematically filtering the dataset from highly resolved three‐dimensional (3D) computational fluid dynamics–discrete element model simulations. Particularly, effects of several potential filtered variable markers on filtered IHTC predictions are examined by statistical analysis. We reveal the formulated filtered IHTC correction closure manifests a systematic dependence on filtered interphase temperature difference as an additional marker. The proposed closure shows good agreement with the filtered fine‐grid simulation data in an a priori analysis. Moreover, the difference of filtered IHTC corrections deduced from 3D Euler–Euler and Euler–Lagrange simulations is quantified. Finally, the comparative analysis between our proposed filtered IHTC formulation and those in literature is implemented. This work holds a potential to facilitate the development of thermal gas–solid flow modeling.

Topics & Concepts

Computational fluid dynamicsInterphaseMechanicsClosure (psychology)Heat transferWork (physics)A priori and a posterioriMaterials scienceEuler's formulaFlow (mathematics)PhysicsThermodynamicsMathematicsMathematical analysisGeneticsPhilosophyEpistemologyEconomicsMarket economyBiologyGranular flow and fluidized bedsCyclone Separators and Fluid DynamicsParticle Dynamics in Fluid Flows
Study of filtered interphase heat transfer using <scp>highly resolved CFD–DEM</scp> simulations | Litcius