|
|
Simulation of interfacial Marangoni convection in gas-liquid mass transfer by lattice Boltzmann method |
Shuyong CHEN, Xigang YUAN(), Bo FU, Kuotsung YU |
State Key Laboratory of Chemical Engineering, Tianjin University, Tianjin 300072, China |
|
|
Abstract Interfacial Marangoni convection has significant effect on gas-liquid and/or liquid-liquid mass transfer processes. In this paper, an approach based on lattice Boltzmann method is established and two perturbation models, fixed perturbation model and self-renewable interface model, are proposed for the simulation of interfacial Marangoni convection in gas-liquid mass transfer process. The simulation results show that the concentration contours are well consistent with the typical roll cell convection patterns obtained experimentally in previous studies.
|
Keywords
interfacial Marangoni convection
lattice Boltzmann method
gas-liquid mass transfer
|
Corresponding Author(s):
YUAN Xigang,Email:yuanxg@tju.edu.cn
|
Issue Date: 05 December 2011
|
|
1 |
Scriven L E, Sternling C V. The Marangoni effects. Nature , 1960, 187(4733): 186-188
|
2 |
Lewis J B, Pratt H R C. Oscillating droplets. Nature , 1953, 171(4365): 1155-1156
|
3 |
Suciu D G, Smigelschi O, Ruckenstein E. Some experiments on the Marangoni effect. AIChE Journal. American Institute of Chemical Engineers , 1967, 13(6): 1120-1124
|
4 |
Austin L J, Ying W E, Sawistowski H. Interfacial phenomena in binary liquid-liquid systems. Chemical Engineering Science , 1966, 21(11): 1109-1110
|
5 |
Imaishi N, Fujinawa K, Hozawa M, Suzuki Y. Interfacial turbulence in gas-liquid mass transfer. International Chemical Engineering, 1982, 22: 659-665
|
6 |
Sun Z F, Yu K T, Wang S Y, Miao Y Z. Absorption and desorption of carbon dioxide into and from organic solvents: effects of Rayleigh and Marangoni instability. Industrial & Engineering Chemistry Research , 2002, 41(7): 1905-1913
|
7 |
Okhotsimskii A, Hozawa M. Schlieren visualization of natural convection in binary gas-liquid systems. Chemical Engineering Science , 1998, 53(14): 2547-2573
|
8 |
Sha Y, Cheng H, Yuan X G. Optical study on concentration-driven Rayleigh-Bénard-Marangoni convection. Trans of Tianjin University , 2002, 8: 22-26
|
9 |
Dijkstra H A, van de Vooren A I. Initial flow development due to Marangoni convection in a mass transfer system. International Journal of Heat and Mass Transfer , 1985, 28(12): 2315-2322
|
10 |
Sternling C V, Scriven L E. Interfacial turbulence: hydrodynamic instability and the marangoni effect. AIChE Journal. American Institute of Chemical Engineers , 1959, 5(4): 514-523
|
11 |
Pearson J R A. On convection cells induced by surface tension. Journal of Fluid Mechanics , 1958, 4(05): 489-500
|
12 |
Bragard J, Slavtchev S G, Lebon G. Nonlinear Solutal Marangoni instability in a liquid layer with an adsorbing upper surface. Journal of Colloid and Interface Science , 1994, 168(2): 402-413
|
13 |
Sha Y. Study on Rayleigh-Bénard-Marangoni convection driven by the mass transfer. Dissertation for the Doctoral Degree . Tianjin: Tianjin University, 2002 (in Chinese)
|
14 |
Hoogstraten H W, Hoefsloot H C J, Janssen L P B M. Marangoni convection in V-shaped containers. Journal of Engineering Mathematics , 1992, 26(1): 21-37
|
15 |
Wang J F, Yang C, Mao Z S. Numerical simulation of Marangoni effects of single drops induced by interphase mass transfer in liquid-liquid extraction systems by the level set method. Science China Series B-Chemistry , 2008, 51(7): 684-694
|
16 |
Yu L M. The study of Marangoni Effect on the gas-liquid mass transfer process. Dissertation for the Doctoral Degree . Tianjin: Tianjin University, 2005 (in Chinese)
|
17 |
McNamara G R, Zanetti G. Use of the Boltzmann equation to simulate lattice gas automata. Physical Review Letters , 1988, 61(20): 2332-2335
|
18 |
Qian Y H, D'Humieres D, Lallemand P. Lattice BGK models for Navier-Stokes equation. Europhysics Letters , 1992, 17(6): 479-484
|
19 |
Chen H, Chen S, Matthaeus W H. Recovery of the Navier-Stokes equations using a lattice-gas Boltzmann method. Physical Review A. , 1992, 45(8): R5339-R5342
|
20 |
Chen S, Doolen G D. Lattice Boltzmann method for fluid flows. Annual Review of Fluid Mechanics , 1998, 30(1): 329-364
|
21 |
Bhatnagar P L, Gross E P, Krook M. A model for collision processes in gases. I. Small amplitude processes in charged and neutral one-component systems. Physical Review , 1954, 94(3): 511-525
|
22 |
Gross E P, Krook M. Model for collision processes in gases: small-amplitude oscillations of charged two-component systems. Physical Review , 1956, 102(3): 593-604
|
23 |
Shan X. Simulation of Rayleigh-Bénard convection using a lattice Boltzmann method. Physical Review E: Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics , 1997, 55(3): 2780-2788
|
24 |
Yoshino M, Inamuro T. Lattice Boltzmann simulations for flow and heat/mass transfer problems in a three-dimensional porous structure. International Journal for Numerical Methods in Fluids , 2003, 43(2): 183-198
|
25 |
Guo Z L, Shi B C, Zheng C G. A coupled lattice BGK model for the Boussinesq equations. International Journal for Numerical Methods in Fluids , 2002, 39(4): 325-342
|
26 |
Shan X, Doolen G. Multicomponent lattice-Boltzmann model with interparticle interaction. Journal of Statistical Physics , 1995, 81(1-2): 379-393
|
27 |
Martys N S, Chen H. Simulation of multicomponent fluids in complex three-dimensional geometries by the lattice Boltzmann method. Physical Review E: Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics , 1996, 53(1): 743-750
|
28 |
Chen S, Martinez D, Mei R. On boundary conditions in lattice Boltzmann methods. Physics of Fluids , 1996, 8(9): 2527-2536
|
29 |
Sha Y, Chen H, Yin Y, Tu S, Ye L Y, Zheng Y M. Characteristics of the Marangoni convection induced in initial quiescent water. Industrial & Engineering Chemistry Research , 2010, 49(18): 8770-8777
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
|
Shared |
|
|
|
|
|
Discussed |
|
|
|
|