Modelling of slow fines migration and formation damage during rate alteration
Document Type
Conference Proceeding
Publication Title
SPE Asia Pacific Oil & Gas Conference and Exhibition
Publisher
Society of Petroleum Engineers
School
School of Engineering
RAS ID
36505
Funders
Open Fund of State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation (Chengdu University of Technology) China Scholarship Council PRH-20/ANP PDSE/CAPES Science without Boundaries
Abstract
Fines migration involving particle detachment in reservoirs often leads to severe permeability damage. It is the consequence of straining of the detached fines in relatively narrower pore throats. Many laboratory coreflood tests indicate that the time of permeability stabilisation can reach hundreds or thousands of pore volumes injected. However, the classical filtration theory assumes that the mobilised fines are transported by the bulk of the carrier fluid, thus the permeability stabilises after one pore volume injected. The current paper attributes the stabilisation delay to the slow drift of the released fines close to the rock surface. We propose the system of flow equations for fines migration in porous media taking into account the velocity of particles lower than that of the fluid. An analytical model for one-dimensional flow with particle mobilisation and straining during piecewise increasing flow rate is obtained. The laboratory data are in good agreement with the results of mathematical modelling. The effective particle speed is 500-1000 times lower than the water velocity.
DOI
10.2118/182320-ms
Access Rights
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Comments
Yang, Y., You, Z., Siqueira, F. D., Vaz, A., & Bedrikovetsky, P. (2016, October). Modelling of slow fines migration and formation damage during rate alteration [Paper presentation]. SPE Asia Pacific Oil & Gas Conference and Exhibition, Perth, Western Australia, Australia. https://doi.org/10.2118/182320-ms