Knowledge Library

banner-placeholder

Permeability Damage by Deposition of Colloidal Particles

L. Nabzar (Institut Francais du Petrole) | G. Chauveteau (Institut Francais du Petrole)

 

Abstract

The formation damage due to retention of colloidal particles suspended in injection waters has been recently analyzed as consisting of four more or less overlapping steps: 1) deposition onto pore surface, 2) pore bridging, with accumulation upstream from bridged pores 3) internal cake building near non-percolation threshold and, 4) external cake formation. A new formation damage model accounting for these different steps has been recently proposed. The results reported in this paper show the consistency between model predictions and experimental results in the convective diffusion regime in the absence of pore bridging. The experiments have been carried out by injecting both negatively and positively charged well-characterized hydrophilic latex micro spheres inside model granular packs made of negatively charged sharp-edged silicon carbide grains of narrow size distribution. To prevent any pore bridging, dilute suspensions of latexes having a size much smaller than that of pore throats were injected at low Peclet number.

 

In the absence of any energy barrier between particles and pore walls, i.e. with positively charged latexes or with negatively charged ones at high ionic strength, the model predictions assuming that the potential of pore surface is homogeneous are in very good agreement with experimental results. Colloidal particles are progressively deposited onto pore surface as a monolayer which reduces pore size and thus permeability. Maximum surface coverage is found to be that predicted by random sequential adsorption theory and the corresponding hydrodynamic thickness is equal to nearly 0.8 times the particle diameter. With negatively charged latexes at low and medium ionic strength, the results reveals that the pore surface of our model porous medium is definitely heterogeneous in term of surface potential. Since the surfaces of natural porous media are obviously heterogeneous, this heterogeneity must be taken into account in the model to predict both deposition kinetics and subsequent permeability reduction.

 

View Full Document

Question? Comments?

Download our brochure!

Copyright 2020 The EOR Alliance | All Rights Reserved.