Improved pore network models to simulate single-phase flow in porous media by coupling with lattice Boltzmann method
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Date
2020-11
Publication Type
Journal Article
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yes
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Abstract
In this paper, different pore network models to simulate single-phase flow in porous media are built and their accuracy is evaluated. In addition to the conventional pore network model (CPNM) which consists of regular pore bodies and throat bonds, three improved pore network models (IPNMs) are developed allowing to better describing the real pore and throat geometry. The first improved pore network model (IPNM1) replaces the regular throat bond with a throat bond showing the real throat cross section. The second improvement (IPNM2) uses a series of sub-throat bonds with varying cross sections to better describe the real throat geometry, which is firstly proposed in this paper. The third model (IPNM3) extracts the real pore-throat-pore geometry without simplification. The conductance of fluid flow through these more realistic throat bonds is calculated by the lattice Boltzmann method (LBM). The accuracy and computational efficiency of the different pore network models are evaluated taking the LBM simulation over the whole porous medium as reference solution. The global permeability and detailed pressure distributions in the pores for the different pore network models are validated. The results show that the accuracy of the pore network model increases from CPNM to IPNM3, but at the expense of increasing computational cost. This study suggests that IPNM3 can replace a whole-domain LBM simulation with similar accuracy but much lower computational cost. As a first-order approximation the newly proposed IPNM2 is suggested as good compromise between accuracy and computational cost.
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Publication status
published
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Journal / series
Volume
145
Pages / Article No.
103738
Publisher
Elsevier
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Edition / version
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Date collected
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Subject
Permeability; Porous media; Lattice Boltzmann method; Pore network model; Watershed method
Organisational unit
03806 - Carmeliet, Jan / Carmeliet, Jan
Notes
Funding
175793 - Multiphase fluid flow, crystallization, partial freezing and damage processes in deforming porous materials (SNF)
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