Geodesic
Drop kinetics in a turbulent flow: characteristic times and direct simulation
Matematičeskoe modelirovanie, Tome 17 (2005) no. 11, pp. 103-117.

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Description of kinetics of electrically charged and neutral microparticles carried by a turbulent medium is presented. For a single particulate (droplet), the hierarchy of characteristics time scales is done in a wide region of the governing parameters, especially at an arbitrary value of Knudsen criterium (i.e., of mean free path of molecule/particulate diameter ratio). For a multitude of particulates (neutral as well as charged), mass spectrum evolution is investigated on the basis of direct numerical simulation. A comparison of results so obtained with the available theories (derived by other investigators) is fulfilled. In addition, time evolution of the components of an optical Stokes vector is calculated for the case of the sound-ing radiation scattered by suspension. A possible application: visualization of aerosole turbulent flows. 
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O. V. Kim; A. L. Stasenko. Drop kinetics in a turbulent flow: characteristic times and direct simulation. Matematičeskoe modelirovanie, Tome 17 (2005) no. 11, pp. 103-117. http://geodesic.mathdoc.fr/item/MM_2005_17_11_a8/

[1] O. V. Kim, A. B. Miller, A. L. Stasenko, “Kinetika zaryazhennykh kapel v sputnom slede samoleta”, Matem. modelirovanie, 15:6 (2003), 83–88 | Zbl

[2] V. V. Vyshinskii, A. L. Stasenko, “Modelirovanie struino-vikhrevogo sleda tyazhelogo lainera nad aerodromom”, Matem. modelirovanie, 15:11 (2003), 69–90 | Zbl

[3] Kogan M. N., Dinamika razrezhennogo gaza, Nauka, M., 1967, 440 pp.

[4] Gilinskii M. M., Stasenko A. L., Sverkhzvukovye gazodispersnye strui, Mashinostroenie, M., 1990, 176 pp.

[5] Millikan R. A., “The general law of fall of a small spherical body through a gas, and its bearing upon the nature of molecular reflection from surfaces”, Phys. Rev., 22 (1923), 1–23 | DOI

[6] Basset A. B., Hydrodynamics, Deighton, Bell and Co, Cambridge, 1888 ; Dover, N.Y., 1961, 270 | Zbl

[7] Sherman F. S., “A survey of experimental results and methods for the transition regime of rarefied gas dynamics”, Raref. Gas Dynamics, vol. 2, ed. J. A. Laurmann, Academic Press, New York, 1963, 228–260

[8] Kavanau L. L., “Heat transfer from spheres to a rarefied gas in subsonic flow”, Trans. ASME, 77:5 (1955), 613–623

[9] Cercignani C., Frezzotti A., Kogan M. N., Phys. Fluids A, 5:10 (1993), 2551–2556 | DOI | MR | Zbl

[10] Schumann U., “On the effect of emission from aircraft engines on the state of the atmosphere”, Ann. Geophys., 12 (1994), 365–384 | DOI

[11] Sternin L. E. Shraiber A. A., Mnogofaznye techeniya gaza s chastitsami, Mashinostroenie, M., 1994, 320 pp.

[12] Lavieville J., Deutsch E., Simonin O., “Large eddy simulation of interaction between colliding particles and homogenous isotropic turbulence field”, Proc. 6th Int. Symp. of Gas-Solid Flows, ASME FED, 228, 1995, 347–357

[13] Derevich I., “Stolknoveniya chastits v turbulentnom potoke”, Izv. RAN, MZhG, 1996, no. 2, 104–116 | Zbl

[14] Zaichik L. I., “Otsenka vremeni mezhdu stolknoveniyami dispersnykh chastits v turbulentnom potoke”, Teplofizika vysokikh temperatur, 36:3 (1998), 456–460

[15] Boren K., Khafmen D., Pogloschenie i rasseyanie sveta malymi chastitsami, Mir, M., 1986, 664 pp.