Journal ArticleDOI
Flow of Suspensions through Porous Media—Application to Deep Filtration
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This article is published in Industrial & Engineering Chemistry.The article was published on 1970-05-01. It has received 810 citations till now. The article focuses on the topics: Filtration & Porous medium.read more
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Journal ArticleDOI
Measuring and modelling straining of Escherichia coli in saturated porous media.
TL;DR: The straining model could be of assistance in evaluating the importance of straining and in incorporating the straining process in bacteria transport modelling and the results imply that column experiments in combination with retention profiles are not enough to explain the retention processes in a column.
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Massive fines detachment induced by moving gas-water interfaces during early stage two-phase flow in coalbed methane reservoirs
TL;DR: In this article, the authors quantify the impact of moving bubbles/GWIs on fines detachment, aiming at better understanding of fines mobilization mechanisms in bubble-water flow towards their effective control.
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Analytical model for straining-dominant large-retention depth filtration
TL;DR: In this article, a method for determining pore size distribution for a porous medium from long-time straining-dominant mono-sized suspension injection is proposed, where the aim is avoiding using multiple-size particle suspensions in short-term challenge tests.
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Estimating filtration coefficients for straining from percolation and random walk theories
TL;DR: In this article, a special capture mechanism is proposed to explain the experimentally observed power law dependencies of filtration coefficients and large penetration depths of particles, which is realized in a 2D pore network model with periodical boundaries with the random walk of particles on the percolation lattice.
Journal ArticleDOI
A stochastic model for filtration of particulate suspensions with incomplete pore plugging
TL;DR: In this article, a population balance model for particulate suspension transport with capture of particles by porous medium accounting for complete and incomplete plugging of pores by retained particles is derived, and the residual pore conductivity after the particle retention in the pore and the possibility of one pore to capture several particles.