Abstract
Computational models for two-phase flow and heat transfer are reviewed. The computational models are categorized according to the inertial and thermal states of the system. The computational techniques applicable to each system are outlined and discussed. Directions for further model development are suggested.
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References
Alpert, R. L., “Calculated interaction of sprays with large-scale, buoyant flows,” ASME Paper No. 82-WA/HT-16, 1982, Winter Annual Meeting.
Baeyens, J. and Goosens, W. R., “Some aspects of heat transfer between a vertical wall and a gas fluid-ized bed,” Powder Technology, 81, 1975, pp. 91–96.
Bauer, R. and Schlunder, E. U., “Effective radial thermal conductivity of packings in gas flow. Part II: Thermal conductivity of the packing fraction without gas flow,” Intl. Chem. Eng., 18, 1978, pp. 189–204.
Crowe, C. T., “Modeling spray-air contact in spray-drying systems,” Advances in Drying, ed. A. Mujumdar, Hemisphere, New York, 1980, pp. 63-99.
Crowe, C. T., “Review: Numerical models for dilute gas-particle flows,” Journal of Fluids Engineering, 104, No. 3, 1982, pp. 297–303.
Crowe, C. T., Chow, L. C. and Chung, J. N., “An assessment of steam operated spray dryers,” Proc. Fourth International Drying Symposium, Kyoto, 1984, pp. 369-377.
Drew, D. A., “Averaged field equations for two-phase media,” Studies in Applied Mathematics, MIT, Vol. L, 1971, pp. 133–166.
Duckler, A. E., “Modeling two-phase flow and heat transfer,” Proc. Sixth International Heat Transfer Conference, Toronto, 6, 1978, pp. 541–557.
Dukowicz, J. K., “A particle-fluid numerical model for liquid sprays,” Journal of Computational Physics, 35, 1980, pp. 229–253.
Eckert, E. R. G. and Pfender, E., “Heat and mass transfer in porous media with phase change, Proc. Sixth International Heat Transfer Conference, 6, 1978, pp. 1–12.
Gidaspow, D., Syamlal, M. and Seo, Y. C., “Hydrodynamics of fluidization: supercomputer generated vs. experimental bubbles,” Proceedings of Powder and Bulk Handling and Processing, Rose-ment, 1985, pp. 111-117.
Harlow, F. H. and Amsden, A. A., “Flow of interpenetrating phases,” Journal of Computational Physics, 18, 1975, pp. 440–464.
Hetsroni, G. (ed.), Handbook of Multiphase Systems, Hemisphere, New York, 1982.
Ishii, M., Thermo-Fluid Dynamic Theory of Two Phase Flow, Eyrolles, France, 1975.
Michiyashi, I., “Two-phase, two-component heat transfer” Proc. Sixth International Heat Transfer Conference, 6, 1978, pp. 219–233.
Mickley, H. S. and Fairbanks, D. F., “Mechanics of heat transfer to fluidized beds,” AIChE Journal, Vol. 1, 1935, pp. 374–384.
Ozkaynak, T. and Chen, J. C, “Emulsion phase residence time and its use in heat transfer models in fluidized beds,” AIChE Journal, 26, 1980, pp. 544–550.
Palaszewski, S. J., Jiji, L. M. and Weinbaum, S., “A three-dimensional air-vapor-droplet local interaction model for spray units,” Journal of Heat Transfer, 103, 1981, pp. 514–521.
Rivard, W. C. and Torrey, M. D., “K-FIX: A computer program for transient, two-dimensional, two-fluid flows,” LA-NUREG-6623, Los Alamos, 1977.
Schuster, J. R., “Nonisothermal porous flow in transpiration cooled nose tips,” Proc. Fifth International Heat Transfer Conference, 5, Tokyo, 1974, pp. 93-97.
Slattery, J. C, Momentum, Energy and Mass Transfer in Continua, McGraw-Hill, New York, 1972.
Spalding, D. B., “The calculation of free convection phenomena in gas-liquid mixtures,” Report No. HTS/76/11, Imperial College, London, 1976.
Syamlal, M. and Gidaspow, D., “Hydrodynamics of fluidization: prediction of wall to bed heat transfer coefficients,” AIChE Journal, 31, 1985, pp. 127–135.
Wen, C. Y. and Chang, T. M., “Particle-particle heat transfer in air-fluidizing beds,” Proc. of Intl. Symp. on Fluidization, ed. A.A.H. Drinkenburg, Netherlands University Press, Amsterdam, 1967, pp. 491–506.
Whitaker, S., “Simultaneous heat, mass and momentum transfer in porous media: a theory of drying,” Advances in Heat Transfer, 13, Academic, New York, 1977, pp. 119-203.
Whitaker, S., “Heat and mass transfer in granular porous media,” Advances in Drying, ed. A. Mujumdar, Hemisphere Pub., 1980, pp. 23-61.
Whitaker, S., “Moisture transport mechanisms during the drying of granular materials,” Proc. Fourth International Drying Conference, Kyoto, 1984, pp. 31-42.
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© 1988 Springer-Verlag Berlin Heidelberg
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Crowe, C.T. (1988). Computational Techniques for Two-Phase Flow and Heat Transfer. In: Kreith, F., Boehm, R.F. (eds) Direct-Contact Heat Transfer. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-30182-1_3
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DOI: https://doi.org/10.1007/978-3-662-30182-1_3
Publisher Name: Springer, Berlin, Heidelberg
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