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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Stabilization of External Filter Cake by Colloidal Forces in a “Well–Reservoir” System
TL;DR: In this article, the authors derived the mechanical equilibrium equation for stabilized cake accounting for electrostatic force and for varying permeate force factor, which is the main empirical parameter of the model, highly affecting the stabilized cake prediction.
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Theoretical Definition of Formation Damage Zone With Applications to Well Stimulation
Mauro Jose de Souza Nunes,Pavel Bedrikovetsky,B. Newbery,R. Paiva,Claudio Jose Alves Furtado,A.L.S. de Souza +5 more
TL;DR: In this article, a model for suspension injection via single well, the permeability damage zone size was defined and expressed by transcendental equation, which was used for design of well stimulation via deposition removal.
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The impact of nanoparticle aggregation on their size exclusion during transport in porous media: One- and three-dimensional modelling investigations.
TL;DR: Results show that incorporating aggregation into the transport model improves the predictivity of current theoretical and empirical approaches to NP deposition in porous media and may under certain physicochemical conditions enhance their mobilities and deliver them to further distances.
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A stochastic theory for deep bed filtration accounting for dispersion and size distributions
TL;DR: In this paper, a stochastic theory for filtration of suspensions in porous media is developed, which takes into account particle and pore size distributions, as well as the random character of the particle motion, which is described in the framework of the theory of continuous-time random walks.
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Well impairment by fines migration in gas fields
TL;DR: In this paper, the authors derived the basic equations for the detachment of fine particles, their migration and size exclusion, causing the rock permeability decline during gas production, and developed an analytical model for the regime of steady state gas production with a gradual accumulation of strained particles, exhibits linear skin factor growth versus the amount of produced reservoir fines.