Geodesic
Modeling of deposition of charged aerosol particles in a flow through a periodic row of cylinders
Učënye zapiski Kazanskogo universiteta. Seriâ Fiziko-matematičeskie nauki, Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, Tome 154 (2012) no. 1, pp. 114-121 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice du chapitre de livre

The motion of charged aerosol particles in a flow through a periodic row of cylinders is theoretically studied. To obtain a velocity field of incompressible gas flow, a numerical solution of stationary Navier–Stokes equations is found by finite volume method using FLUENT code. The equation of transport of charged particles taking into account the electrostatic force is solved together with the equation for electric potential in the found gas velocity field. The particle concentration and electric potential distributions and the deposition efficiency are calculated.
Mots-clés : aerosol filtration
Keywords: charged particles, deposition efficiency. 
@article{UZKU_2012_154_1_a9,
     author = {T. Sh. Zaripov},
     title = {Modeling of deposition of charged aerosol particles in a~flow through a~periodic row of cylinders},
     journal = {U\v{c}\"enye zapiski Kazanskogo universiteta. Seri\^a Fiziko-matemati\v{c}eskie nauki},
     pages = {114--121},
     year = {2012},
     volume = {154},
     number = {1},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/UZKU_2012_154_1_a9/}
}
TY  - JOUR
AU  - T. Sh. Zaripov
TI  - Modeling of deposition of charged aerosol particles in a flow through a periodic row of cylinders
JO  - Učënye zapiski Kazanskogo universiteta. Seriâ Fiziko-matematičeskie nauki
PY  - 2012
SP  - 114
EP  - 121
VL  - 154
IS  - 1
UR  - http://geodesic.mathdoc.fr/item/UZKU_2012_154_1_a9/
LA  - ru
ID  - UZKU_2012_154_1_a9
ER  - 
%0 Journal Article
%A T. Sh. Zaripov
%T Modeling of deposition of charged aerosol particles in a flow through a periodic row of cylinders
%J Učënye zapiski Kazanskogo universiteta. Seriâ Fiziko-matematičeskie nauki
%D 2012
%P 114-121
%V 154
%N 1
%U http://geodesic.mathdoc.fr/item/UZKU_2012_154_1_a9/
%G ru
%F UZKU_2012_154_1_a9
T. Sh. Zaripov. Modeling of deposition of charged aerosol particles in a flow through a periodic row of cylinders. Učënye zapiski Kazanskogo universiteta. Seriâ Fiziko-matematičeskie nauki, Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, Tome 154 (2012) no. 1, pp. 114-121. http://geodesic.mathdoc.fr/item/UZKU_2012_154_1_a9/

[1] Brown R. C., Air filtration: an integrated approach to the theory and applications of fibrous filters, Pergamon Press, 1993, 272 pp.

[2] Kirsh A. A., Budyka A. K., Kirsh V. A., “Filtratsiya aerozolei voloknistymi materialami”, Zhurn. Ros. khim. o-va im. D. I. Mendeleeva, 52:5 (2008), 97–102

[3] Fuks N. A., Mekhanika aerozolei, Izd-vo AN SSSR, M., 1955, 347 pp.

[4] Finlay W. H., The mechanics of inhaled pharmaceutical aerosols: an introduction, Acad. Press, 2001, 320 pp.

[5] Alonso M., Alguacil F. J., “Penetration of aerosol undergoing combined electrostatic dispersion and diffusion in a cylindrical tube”, J. Aerosol Sci., 38:5 (2007), 481–493 | DOI

[6] Alonso M., Alguacil F. J., Santos J. P., Jidenko N., Borra J. P., “Deposition of ultrafine aerosol particles on wire screens by simultaneous diffusion and image force”, J. Aerosol Sci., 38:12 (2007), 1230–1239 | DOI | MR

[7] Yu C. P., Chandra K., “Deposition of charged particles from laminar flow in rectangular and cylindrical channels by image force”, J. Aerosol Sci., 9:2 (1978), 175–180 | DOI

[8] Fisenko S. P., “Brounovskoe dvizhenie i dreif zaryazhennykh nanochastits v laminarnom potoke v ploskom kanale”, Inzh.-fiz. zhurn., 82:2 (2009), 215–220

[9] Raist P., Aerozoli. Vvedenie v teoriyu, Mir, M., 1987, 280 pp.

[10] Vatazhin A. B., Ulybyshev K. E., “Dozvukovoe obtekanie sfericheskogo zonda potokom elektricheski kvazineitralnogo slaboionizovannogo gaza”, Mekhanika zhidkosti i gaza, 2006, no. 1, 68–75 | Zbl

[11] http://www.ansys.com

[12] Hinds W. C., Aerosol technology: properties, behavior, and measurement of airborne particles, Wiley, N.Y., 1999, 464 pp.

[13] Stechkina I. B., “Diffuzionnoe osazhdenie aerozolei v voloknistykh filtrakh”, Dokl. AN SSSR, 167:6 (1966), 1327–1330

[14] Kuwabara S., “The forces experienced by randomly distributed parallel circular cylinders or spheres in a viscous flow at small Reynolds numbers”, J. Phys. Soc. Japan, 14:4 (1959), 527–532 | DOI | MR