Abstract
Searching for ways to intensify the interfacial heat and mass exchange processes is one of the most significant problems of modern chemical and electrochemical technology. The extremal behaviour of the interfacial exchange (extremal with respect to the thermodynamic balance) is the most important part of this investigation [1,2]. For the solution of technological problems the utilization of regular dissipative structures is of great interest, firstly because of the very high efficiences of power consumption for these processes, and secondly due to the principal possibility of obtaining a quantitative kinetic description of the interfacial heat and mass exchange without requiring a model for the case of dissipative structures. A further aim is to develop reliable methods for increasing the efficiency of the equipment by using this description.
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References
Glensdorf, P., Prygozhin, I.: Termodin. Teor., M., Mir, 357 (1973)
Ebeling, V.: Obrazovanie Structur., M., Mir, 256 (1979)
Landau, L.D., Lifshitz, E.M.: Electrodinamica Sploshnykh Sred., M., Phismatgiz., 93 (1959)
Frumkin, A.N.: Zhurn. Chist. i Prikl. Zn., Otdel. Phis.-Mat. i Tekhn. Nauk. 1, 1 (1921)
Levich, V.G., Krylov, V.S.: in “Annual Review of Fluid Mechanics,” Palo Alto, California: Ann. Revs. Inc. 1, 293 (1969)
Melcher, J.R., Taylor, G.I.: in “Annual Review of Fluid Mechanics,” Palo Alto, California: Ann. Revs. Inc. 1, 111 (1969)
Squire, H.B.: J. Mech. Appl. Math. 4, 321 (1951)
Knowles, C.P., Gebhart, B.: Fluid Mech. 34, 657 (1968)
Dzalurija, Y.: Estestv. Convectia, M., Mir. 296 (1983)
Benney, D.J., Lin, C.C.: Phys. Fuilds 3, 656 (1960)
Audunson, T., Gebhart, B.: Int. J. Heat Mass Transfer 19, 737 (1976)
Pearson, J.R.A.: J. Fluid Mech. 4, 489 (1958)
Sterling, C.V., Seriven, L.E.: A.I.Ch.E.Journal. 6, 514 (1959)
Scriven, L.E., Sterling, C.V.: J. Fluid Mech. 19, 321 (1964)
Mield, D.A.: ibid. 19, 341 (1964)
Whitaker, S.: Industr. Engng. Chem., Fundam. 3, 132 (1964)
Smith, K.A.: J. Fluid Mech. 24, 401 (1966)
Linde, H., Schwartz, P.: Teor. Osnovi Chim., Teknol., 5, 401 (1971)
Brian, P.L.T., Smith, K.A.: A.I.Ch.E.Journal 18, 231 (1972)
Zeren, R., Reynolds, W.C.: J. Fluid Mech. 53, 305 (1972)
Sorensen, T.S., Hennenberg, M.: in “Lecture Notes in Physics. Dynamics and Instability of Fluid Interfaces” (Sorensen, T.S. Ed.), Springer Verlag, 276 (1979)
Reichenbach, J., Linde, H.: J. Colloid Sci. 84, 433 (1981)
Schwartz, P., Vilke, G., Krylov, V.S.: Teor. Osnovi Chim. Teknol. 16, 777 (1982)
Scanion, J.W., Segel, L.A.: J. Fluid Mech. 30, 149 (1967)
Kraska, J.R., Sani, R.L.: Int. J. Heat Mass Transfer 22, 535 (1979)
Rosenblat, S., Davis, S.H., Homsy, G.M.: J. Fluid Mech. 120, 91 (1982)
Rosenblat, S., Homsy, G.M., Davis, S.H.: ibid. 120, 123 (1982)
Malcus, W.V.R., Veronis, G.: Phys. Fluids 4, 13 (1961)
Choi, H.Y.: Trans. ASME, J. Heat Transfer 90, 98 (1968)
Melcher, J.R., Firebaugh, M.S.: Phys. Fluids 10, 1178 (1967)
Galler, D., Sanfeld, A., Bisch, P.: Physicochem. Hydrodynamics, 3, 1 (1982)
Yagodin, G.A., Kagan, S.Z., Tarasov, B.B. et al.: Osnovi Extract. Zhidkost. M., Chimia 399 (1981)
Frentzel, G., Linde, H.: Teor. Osnovi Chim. Tekn. 20, 28 (1986)
Mitjushev, P.V., Krylov, V.S.: Electrochimiya 21, 22, 1604 (1986)
Dupeyrat, M., Michel, J.: J. Exp. Suppl. 18, 269 (1971)
Dupeyrat, M., Nakache, E.C.R.: Acad. Sci, Ser. C. 277, 599 (1973)
Flett, D.S., Okuhara, D.N., Spink, D.R.: J. Inorg. Nucl. Chem. 35, 2471 (1973)
Flett, D.S., Cox, M., Heels, D.: in “Proc. Int. Solvent Extraction Conf.” (Soc. Chem. Ind., London) 3, session 24, p. 2560 (1974)
Whewell, R.J., Hugues, M.A., Hanson, C.J.: Inorg. Nucl. Chem. 37, 2303 (1975)
Price, R., Tumelty, J.: Ind. Eng. Chem, Symp. Ser. 45, 18 (1975)
Dobson, S., Van der Zecuw, A.: J.Chem. Ind. 5, 176 (1976)
Nitsh, W., Navazio, L.: in “Proc. Interfacial Solvent Extraction Conf. 80, 220 (1980)
Nakache, E., Dupeyrat, M., Vignes-Adler, M.: Faraday Discuss, Chem. Soc. 77, paper 13, 1 (1984)
Mitjushev, P.V., Krylov, V.S.: Electrochimiya, 22, 552 (1986)
Newman, G.: Electrochim. Sistemy, M., Mir., 456 (1977)
Vidal, A., Acrivos, A.: Phys. Fluids 9, 615 (1966)
Frumkin, A.N., Stenina, E.V., Fedorovich, N.V.: Electrochimiya 6, 1572 (1970)
Frumkin, A.N., Fedorovich, N.V., Stenina, E.V., Damaskin, B.B., Krylov, V.S.: J. Electroanalyt. Chem. 50, 103 (1974)
Frumkin, A.N., Fedorovich, N.V., Stenina, E.V.: in “Itogi Nauki i Tekniki”, ser. Electrochimiya, M., VINITI, 13, 5 (1978)
Baranowski, B., Kawczynski, A.L.: Roczn. Chemii 44, 2447 (1970)
Baranowski, B., Kawczynski, A.L.: Electrochim. Acta 17, 695 (1972)
Vessler, G.R., Schwartz, P., Krylov, V.S., Linde, H.: Electrochimiya 22, 623 (1986)
Pellew, A., Southwell, R.V.: Proc. Roy. Soc. A 176, 312 (1940)
Isaeva, L.A., Poljakov, P.V., Michalev, J.G., Rogozin, J.N.: Electrochimiya 18, 1697 (1982)
Slinko, M.G., Dilman, V.V., Rabinovich, L.M.: Teor. Osnovi Chim. Tekn. 17, 10 (1983)
Sawistowski, G.: in “Posledn. Dostidg. v Oblasti.” (Hanson, K., Ed.), M., Chimiya 204 (1974)
Schwartz, P., Biletzky, J., Krylov, V.S., Linde, H.: Electrochimiya (in press)
Vessler, G.R., Hirhe, Hr., Krylov, V.S., Schwartz, P., Linde, H., Ering, H.: ibid. (in press)
Linde, H.: Fette, Seifen, Anstrichmittel 60 (826) 1053 (1985)
Linde, H., Mber, D.T.: Akad. Wiss. Berl. 1, 699 (1959)
Orell, A., Westwater, J.M.: Chem. Eng. Sci. 16, 127 (1961)
Orell, A., Westwater, J.M.: A.I.Ch.E.Journal 8, 350 (1962)
Sawistowski, H., Goltz, G.E.: Trans. Inst. Chem., Engrs. 41, 174 (1963)
Sawistowski, H., James, B.R.: Chem.-Ing.-Techn. 35, 175 (1963)
Bakker, C.A.P., Van Huytenen, P.M., Beek, W.J.: Chem. Eng. Sci. 21, 1039 (1966)
Sawistowski, H., Austin, L.J.: Chem. Ing.-Techn. 39, 224 (1967)
Dilman, V.V.: Teor. Osnovi Chim. Tekn. 9, 844 (1975)
Grymzin, J.N., Kwashnin, S.J., Lothov, V.A., Maljusov, V.A.: ibid. 16, 251 (1982)
Poljakov, P.V., Isaeva, L.A., Michalev, Y.G.: Electrochimiya 16, 1132 (1980)
Krylov, V.S., Maljusov, V.A., Nitshke, U., Lothov, V.A.: Teor. Osnovi. Chim. Tekn. 19, 10 (1985)
Nitshke, U., Schwartz, P., Krylov, V.S., Linde, H.: ibid. 19 (1985)
Nitshke, U., Schwartz, P., Krylov, V.S., Linde, H.: ibid. 19, 134 (1985)
Nitshke, U., Schwartz, P., Krylov, V.S., Linde, H.: ibid. 19, 245 (1985)
Krylov, V.S.: ibid. 17, 15 (1983)
Van Lamsweerde-Gallez, D., Meessen, A.: J. Membrane Biol. 23, 103 (1975)
Koryta, J.: Electrochim. Acta 29, 445 (1984)
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Krylov, V.S. (1987). Hydrodynamics and Mass Exchange at the Phase Boundaries with Regular Dissipative Structures. In: Kazarinov, V.E. (eds) The Interface Structure and Electrochemical Processes at the Boundary Between Two Immiscible Liquids. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-71881-6_4
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DOI: https://doi.org/10.1007/978-3-642-71881-6_4
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