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多孔介质中高Pclet数和大黏性比下混溶流体的流动和扩散广泛存在于二氧化碳驱油、化工生产等工业过程中. 用数值方法对该问题进行研究时, 关键在于如何正确描述高Pclet数和大黏性比下多孔介质内流体的行为. 为此, 提出了一种基于多松弛模型和格子动理模型的耦合格子Boltzmann模型. 通过Chapman-Enskog分析, 证明该模型能有效求解不可压Navier-Stokes方程和对流扩散方程. 数值结果表明, 该模型不仅具有二阶精度和良好的稳健性, 而且对于高Pclet数和大黏性比的问题具有良好的数值稳定性, 为模拟此类问题提供了有效工具.
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关键词:
- 格子Boltzmann模型 /
- 多孔介质 /
- 流动与扩散 /
- 高P /
- clet数和大黏性比
The flow and diffusion of miscible fluid in a porous medium with a high Plcet number (Pe) and large viscosity ratio widely exist in industrial processes, such as oil recovery, geological sequestration of carbon dioxide, and chemical engineering process. When these problems are studied by numerical methods, the key point is to accurately describe the flow dynamics and diffusion process in a porous medium at the same time. As an alternative to conventional numerical methods, the lattice Boltzmann method based on kinetic theory is well suited to pore-scale simulations of miscible fluid flows and molecular diffusion. However, most of the existing lattice Boltzmann models have many difficulties (e.g. robustness and numerical stability) in simulating such systems at high Pe and large viscosity ratio. In this paper, in order to overcome the above difficulties, we propose a coupled lattice Boltzmann model based on the multiple-relaxation-time model and the lattice kinetic scheme for the fluid flow and diffusion, respectively. It can be shown that the incompressible Navier-Stokes equations and the convection-diffusion equation can be derived from the presented coupled model through the Chapman-Enskog procedure. The proposed model is validated by simulating a concentration gradient driven flow in a porous channel. Numerical results demonstrate that the model is of second-order accuracy in space. We further simulate a flow through two types of artificial porous media. The robustness of the presented model is investigated by measuring the permeability and diffusivity under different relaxation times. It is found that the model is insensitive to relaxation parameters. In addition, the miscible viscous displacement in two parallel plates is simulated to test the numerical stability of the model. It is observed that the results accord well with those reported in previous work, and the model is very stable at high Pe and large viscosity ratio in comparison with the standard lattice Bhatnagar-Gross-Krook model. Overall, the coupled lattice Boltzmann model can serve as an effective tool for directly simulating the fluid flow and diffusion at high Pe and large viscosity ratio in the pores of a porous medium.-
Keywords:
- lattice Boltzmann model /
- porous media /
- fluid flow and diffusion /
- high P /
- lcet number and large viscosity ratio
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[14] d'Humires D, Ginzburg I 2002 Phil. Trans. R. Soc. Lond. A 360 437
[15] Premnath K N, Abraham J 2007 J. Comput. Phys. 224 539
[16] Inamuro T 2002 Philos. Trans. R. Soc. London, Ser. A 360 477
[17] Yang X G, Shi B C, Chai Z H 2014 Phys. Rev. E 90 013309
[18] Chapman S, Cowling T G 1990 The Mathematical Theory of Non-Uniform Gases (Cambridge: Cambridge University Press) p359
[19] Ladd A 1994 J. Fluid Mech. 271 285
[20] Wang J, Wang D, Lallemand P, Luo L S 2013 Comput. Math. Appl. 65 262
[21] Noble D R, Chen S, Georgiads J G, Buckius R O 1995 Phys. Fluids 7 203
[22] Homsy G M 1987 Annu. Rev. Fluid Mech. 19 271
[23] Rakotomalala N, Salin D, Watzky P 1997 J. Fluid Mech. 338 277
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[1] Jayaraj S, Kang S, Suh Y 2007 J. Mech. Sci. Technol. 21 536
[2] Orr F 2009 Science 325 1656
[3] Zheng K C, Wen Z, Wang Z S, Lou G F, Liu X L, Wu W F 2012 Acta Phys. Sin. 61 014401 (in Chinese) [郑坤灿, 温治, 王占胜, 楼国锋, 刘训良, 武文斐 2012 61 014401]
[4] Lin J, Trabold T, Walluk M, Smith D 2013 Int. J. Hydrog. Energy 38 12024
[5] Ghassemi A, Pak A 2011 Int. J. Numer. Anal. Methods Geomech. 35 886
[6] Song B W, Ren F, Hu H B, Huang Q G 2015 Chin. Phys. B 24 014703
[7] Kang Q, Lichtner P C, Zhang D 2006 J. Geophys. Res. 111 B05203
[8] Sun D K, Xiang N, Jiang D, Chen K, Yi H, Ni Z H 2013 Chin. Phys. B 22 114704
[9] Esfahanian V, Dehdashti E, Dehrouye-Semnani A M 2014 Chin. Phys. B 23 084702
[10] Guo Y L, Xu H H, Shen S Q, Wei L 2013 Acta Phys. Sin. 62 144704 (in Chinese) [郭亚丽, 徐鹤函, 沈胜强, 魏兰 2013 62 144704]
[11] Tao S, Wang L, Guo Z L 2014 Acta Phys. Sin. 63 214703 (in Chinese) [陶实, 王亮, 郭照立 2014 63 214703]
[12] Lallemand P, Luo L S 2000 Phys. Rev. E 61 6546
[13] Pan C, Luo L S, Miller C T 2006 Comput. Fluid 35 898
[14] d'Humires D, Ginzburg I 2002 Phil. Trans. R. Soc. Lond. A 360 437
[15] Premnath K N, Abraham J 2007 J. Comput. Phys. 224 539
[16] Inamuro T 2002 Philos. Trans. R. Soc. London, Ser. A 360 477
[17] Yang X G, Shi B C, Chai Z H 2014 Phys. Rev. E 90 013309
[18] Chapman S, Cowling T G 1990 The Mathematical Theory of Non-Uniform Gases (Cambridge: Cambridge University Press) p359
[19] Ladd A 1994 J. Fluid Mech. 271 285
[20] Wang J, Wang D, Lallemand P, Luo L S 2013 Comput. Math. Appl. 65 262
[21] Noble D R, Chen S, Georgiads J G, Buckius R O 1995 Phys. Fluids 7 203
[22] Homsy G M 1987 Annu. Rev. Fluid Mech. 19 271
[23] Rakotomalala N, Salin D, Watzky P 1997 J. Fluid Mech. 338 277
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