介绍了计算流体力学(CFD)在膜分离过程模拟中的基本原理,探讨了CFD在膜隔网优化设计、纳滤膜污染机理研究、纳滤膜对无机离子截留等领域中的应用,并对CFD在纳滤膜分离技术研究中的应用前景进行了展望.
参考文献
| [1] | 王晓琳;丁宁.反渗透和纳滤技术及其应用[M].北京:化学工业出版社,2005 |
| [2] | Fair J C;Osterle J C .Reverse electro-dialysis in charged capillary membranes[J].Journal of Chemical Physics,1971,54(08):3307-3312. |
| [3] | Wang X L;Wang D X;Tomi Y .Transport of organic electrolytes with electrostatic and steric-hindrance effects through nanofiitration membrane[J].Journal of Chem Eng of Jap,1995,28(04):372-380. |
| [4] | Wang XL.;Nakao S.;Kimura S.;Tsuru T. .ELECTROLYTE TRANSPORT THROUGH NANOFILTRATION MEMBRANES BY THE SPACE-CHARGE MODEL AND THE COMPARISON WITH TEORELL-MEYER-SIEVERS MODEL[J].Journal of Membrane Science,1995(1/2):117-133. |
| [5] | Wang C Y .Exact solutions of the steady-state NavierStokes equations[J].Annual Review of Fluid Mechanics,1991,23:159-177. |
| [6] | Narang B S .Exact solution for entrance region flow between parallel plates[J].International Journal of Heat and Fluid Flow,1983,4:177-181. |
| [7] | 王福军.计算流体动力学分析-CFD软件原理与应用[M].北京:清华大学出版社,2004 |
| [8] | Fimbres-Weihs G A;Wiley D E.Review of 3D CFD modeling of flow and mass transfer in narrow spacerfilled channels in membrane modules[J].Chemical Engineering and Processing,2010 |
| [9] | Fimbres-Weihs G A;Wiley D E .Numerical study of two-dimensional multilayer spacer designs for minimum drag and maximum mass transfer[J].Journal of Membrane Science,2008,325:809-822. |
| [10] | Nathan R.Rosaguti;David F.Fletcher;Brian S.Haynes .Laminar Flow and Heat Transfer in a Periodic Serpentine Channel[J].Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology,2005(3):353-361. |
| [11] | K.Darcovich;M.M.Dal-Cin;B.Gros .Membrane mass transport modeling with the periodic boundary condition[J].Computers & Chemical Engineering: An International Journal of Computer Applications in Chemical Engineering,2009(1):213-224. |
| [12] | Fimbres-Weihs GA;Wiley DE;Fletcher DF .Unsteady flows with mass transfer in narrow zigzag spacer-filled channels: A numerical study[J].Industrial & Engineering Chemistry Research,2006(19):6594-6603. |
| [13] | Fimbres-Weihs GA;Wiley DE .Numerical study of mass transfer in three-dimensional spacer-filled narrow channels with steady flow[J].Journal of Membrane Science,2007(1/2):228-243. |
| [14] | Yu-Ling Li;Kuo-Lun Tung .CFD simulation of fluid flow through spacer-filled membrane module:selecting suitable cell types for periodic boundary conditions[J].Desalination: The International Journal on the Science and Technology of Desalting and Water Purification,2008(1/3):351-358. |
| [15] | Fimbres-Weihs GA;Wiley DE .Numerical study of mass transfer in three-dimensional spacer-filled narrow channels with steady flow[J].Journal of Membrane Science,2007(1/2):228-243. |
| [16] | Vivek V. Ranade;Ashwani Kumar .Fluid dynamics of spacer filled rectangular and curvilinear channels[J].Journal of Membrane Science,2006(1/2):1-15. |
| [17] | Koutsou C P;Yiantsios S G;Karabelas A J .A numerical and experimental study of mass transfer in spacer-filled channels:effects of spacer geometrical characteristics and Schmidt number[J].Journal of Membrane Science,2009,326:234-251. |
| [18] | Li F.;Meindersma W.;de Haan AB.;Reith T. .Optimization of commercial net spacers in spiral wound membrane modules[J].Journal of Membrane Science,2002(1/2):289-302. |
| [19] | S.Wardeh;H.P.Morucm .CFD simulations of flow and concentration polarization in spacer-filled channels for application to water desalination[J].Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers,2008(a10):1107-1116. |
| [20] | Ahmad AL;Lau KK;Abu Bakar MZ .Impact of different spacer filament geometries on concentration polarization control in narrow membrane channel[J].Journal of Membrane Science,2005(1/2):138-152. |
| [21] | Ahmad AL;Lau KK .Impact of different spacer filaments geometries on 2D unsteady hydrodynamics and concentration polarization in spiral wound membrane channel[J].Journal of Membrane Science,2006(1/2):77-92. |
| [22] | Picioreanu C.;Heijnen JJ.;van Loosdrecht MCM. .A theoretical study on the effect of surface roughness on mass transport and transformation in biofilms[J].Biotechnology and Bioengineering,2000(4):355-369. |
| [23] | Picioreanu C;van Loosdrecht M C M;Heijnen J J .Two-dimensional model of biofilm detachment caused by internal stress from liquid flow[J].Biotechnology and Bioengineering,2001,72(02):205-218. |
| [24] | Eberl HJ.;Heijnen JJ.;van Loosdrecht MCM.;Picioreanu C. .A three-dimensional numerical study on the correlation of spatial structure, hydrodynamic conditions, and mass transfer and conversion in biofilms[J].Chemical Engineering Science,2000(24):6209-6222. |
| [25] | George E. Kapellos;Terpsichori S. Alexiou;Alkiviades C. Payatakes .Hierarchical simulator of biofilm growth and dynamics in granular porous materials[J].Advances in water resources,2007(6/7):1648-1667. |
| [26] | D.A.Graf von der Schulenburg;T.R.R.Pintelon;C.Picioreanu .Three-Dimensional Simulations of Biofilm Growth in Porous Media[J].AIChE Journal,2009(2):494-504. |
| [27] | Picioreanu C;van Loosdrecht M C M;Curtis T P.Model based evaluation of the effect of pH and electrode geometry on microbial fuel cell performance[J].Bioelectrochemistry,2009 |
| [28] | Picioreanu P;Vrouwenvelder J S;van Loosdrecht M C M .Three-dimensional numerical modeling of biofouling and fluid dynamics in feed spacer channels of membrane devices[J].Journal of Membrane Science,2009,345:340-354. |
| [29] | Vrouwenlder J S;Picioreanu C;Kruithof J C et al.Biofouling in spiral wound membrane systems:Three-dimension CFD model based evaluation of experiment data[J].Journal of Membrane Science,2010,346:71-85. |
| [30] | M. Rahimi;S.S. Madaeni;M. Abolhasani .CFD and experimental studies of fouling of a microfiltration membrane[J].Chemical Engineering and Processing,2009(9):1405-1413. |
| [31] | A.L.Ahmad;K.K.Lau;M.Z.Abu Bakar;S.R.Abd.Shukor .Integrated CFD simulation of concentration polarization in narrow membrane channel[J].Computers & Chemical Engineering: An International Journal of Computer Applications in Chemical Engineering,2005(10):2087-2095. |
| [32] | Patrice Bacchin;Benjamin Espinasse;Yolaine Bessiere;David F.Fletcher;Pierre Aimar .Numerical simulation of colloidal dispersion filtration:description of critical flux and comparison with experimental results[J].Desalination: The International Journal on the Science and Technology of Desalting and Water Purification,2006(1/3):74-81. |
| [33] | 侯立安 .纳滤工艺净化核生化沾染生活用水的研究[D].北京:防化研究院,2006. |
| [34] | 王洁,孙珮石,方富林,毕晓伊,杨常亮,邓辅唐,乔莉.纳滤膜处理含金属离子酸性废液[J].膜科学与技术,2010(03):35-38. |
| [35] | 侯立安;左莉;刘晓敏.纳滤膜对模拟放射性核素的截留机理研究[A].,2006:584-589. |
| [36] | Krishna R.;Wesselingh JA. .REVIEW ARTICLE NUMBER 50 - THE MAXWELL-STEFAN APPROACH TO MASS TRANSFER [Review][J].Chemical Engineering Science,1997(6):861-911. |
| [37] | Aguilella W M;Garrido J;Mafé S et al.A finitedifference method for numerical solution of the steadystate Nemst Planck equations with non-zero convection and electric current density[J].Journal of Membrane Science,1986,28:139-149. |
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