1887

Abstract

Summary

In this study, pore-scale simulation is carried out utilizing the lattice Boltzmann method by taking into account the direct effect of all pores. The smooth profile method [22] is employed for liquid-solid interaction in the pore-scale simulation of the dual porosity porous medium. In REV scale simulation, the effect of micro pores, after homogenization, is combined with the effect of larger pores. In addition to fluid flow simulation, the effects of micro-pore permeation are also examined on the main parameters governing fluid flow.

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/content/papers/10.3997/2214-4609.201802489
2018-09-09
2024-03-29
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References

  1. Apourvari, S.N. and Arns, C.H.
    , [2016]. Image-based relative permeability upscaling from the pore scale. Advances in Water Resources, 95, pp. 161–175.
    [Google Scholar]
  2. , [2014], January. An assessment of the influence of micro-porosity for effective permeability using local flux analysis on tomographic images. In IPTC 2014: International Petroleum Technology Conference.
    [Google Scholar]
  3. Bauer, D., Youssef, S., Fleury, M., Bekri, S., Rosenberg, E. and Vizika, O.
    , [2012]. Improving the estimations of petrophysical transport behavior of carbonate rocks using a dual pore network approach combined with computed microtomography. Transport in porous media, 94(2), pp. 505–524.
    [Google Scholar]
  4. Chen, L., Fang, W., Kang, Q., Hyman, J.D.H., Viswanathan, H.S. and Tao, W.Q.
    , [2015]. Generalized lattice Boltzmann model for flow through tight porous media with Klinkenberg’s effect. Physical Review E, 91(3), p. 033004
    [Google Scholar]
  5. Dardis, O. and McCloskey, J.
    , [1998]. Lattice Boltzmann scheme with real numbered solid density for the simulation of flow in porous media. Physical Review E, 57(4), p. 4834.
    [Google Scholar]
  6. Guo, Z. and Zhao, T.S.
    , [2002]. Lattice Boltzmann model for incompressible flows through porous media. Physical Review E, 66(3), p. 036304
    [Google Scholar]
  7. Jahanshahi Javaran, E., Rahnama, M. and Jafari, S.
    , [2013]. Investigating the applicability of combined lattice Boltzmann-smoothed profile methods in particulate systems. Particulate Science and Technology, 31(6), pp. 643–652
    [Google Scholar]
  8. Lawrence, M. and Jiang, Y.
    , [2017]. Porosity, Pore Size Distribution, Micro-structure. In Bioaggregates Based Building Materials (pp. 39–71). SpringerNetherlands.
    [Google Scholar]
  9. Liu, H., Zhang, Y. and Valocchi, A.J.
    , [2015]. Lattice Boltzmann simulation of immiscible fluid displacement in porous media: Homogeneous versus heterogeneous pore network. Physics of Fluids, 27(5), p. 052103.
    [Google Scholar]
  10. Spaid, M.A. and Phelan, F.R.Jr
    , [1997]. Lattice Boltzmann methods for modeling microscale flow in fibrous porous media. Physics of fluids, 9(9), pp. 2468–2474
    [Google Scholar]
  11. Sukop, M.C.
    , 2006. DTThorne, Jr.Lattice Boltzmann Modeling Lattice Boltzmann Modeling.
    [Google Scholar]
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