Thermophoretic motion of an ensemble of moderately coarse aerosol particles
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KeywordsMathematical Modeling Mechanical Engineer Industrial Mathematic Aerosol Particle Coarse Aerosol
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- 1.P. S. Epstein, “Zur theorie des Radiometers,” Z. Phys.,54, No. 7–8 (1929).Google Scholar
- 2.M. N. Gaidukov and A. P. Melekhov, “Position of a chain of coarse spherical particles in a nonuniformly heated gas,” Inzh.-fiz. Zh.,47, No. 1 (1984).Google Scholar
- 3.Yu. I. Yalamov, A. P. Melekhov, and M. N. Gaidukov, “Thermophoresis of hydrodynamically interacting aerosol particles,” Dokl. Akad. Nauk SSSR,287, No. 2 (1986).Google Scholar
- 4.Yu. I. Yalamov and V. S. Galoyan, Dynamics of Drops in Nonuniform Viscous Media [in Russian], Luis, Erevan (1985).Google Scholar
- 5.Yu. I. Yalamov, A. A. Yushkanov, and A. B. Poddoskin, “Boundary conditions in the flow of a nonuniformly heated gas past a spherical surface of small curvature,” Dokl. Akad. Nauk SSSR,254. No. 2 (1980).Google Scholar
- 6.G. Lamb, Hydrodynamics [Russian translation], Tekhizdat, Moscow-Leningrad (1947).Google Scholar
- 7.H. Brenner, “The Stokes resistance of a slightly deformed sphere,” Chem. Eng. Sci.,19, No. 8 (1964).Google Scholar
- 8.P. M. Morse and H. Feshbach, Methods of Theoretical Physics, Vol. 2, McGraw-Hill, New York (1953).Google Scholar
- 9.A. Yu. Zakharov and V. I. Turchaninov, STIFF Program for Solving Stiff Systems of Ordinary Differential Equations (adaptation for a BÉSM-6 computer) [in Russian], Mosk. Cos. Univ., Moscow (1977).Google Scholar
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