A universal model for the permeability of sintered materials
ACTA MATERIALIA(2023)
摘要
Sintered materials are used as permeable filters and flow controllers, for which a validated and general model of porosity and permeability is required. Here, we prepare samples built from mono-and polydisperse glass bead populations sintered for known times at high temperature, and then measure the sample porosity and perme-ability. We supplement our new dataset with published permeability data for sintered systems including high -temperature in situ determinations of permeability during sintering. We test a range of mathematical models for the change in permeability with porosity as sintering progresses from a value for the initial granular particle packing geometry, down to the percolation threshold at low porosity. We find good agreement between our datasets and a preferred theoretical approach - a percolation theory model - with no explicit requirement for empirical adjustment. However, we propose semi-empirical steps that generalize this theory to a universal description across all porosities. Finally, we quantify the inertial component of fluid transport at high flow rates through these materials. Our model framework is made available via a user-friendly downloadable spreadsheet which takes particle size distribution as an input and provides permeability as an output.
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关键词
Fluid flow,Ergun,Forchheimer,Darcy,Porous media,Sintering
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