Geodesic
Experimental studies of swirling flow aerodynamics in an air-centrifugal classifier
Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 1 (2011), pp. 83-92 Cet article a éte moissonné depuis la source Math-Net.Ru

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Distribution of the components of the carrying flow velocity vector in the separating element of the air-centrifugal powder classifier with capacity of up to 2000 kg/h (VPO-1000) was studied experimentally. The results of the experimental studies complement the mathematical model of rotor aerodynamics of a turbulent flow in a profiled rotating separator element and make it possible to analyze the flow in the separation zone.
Keywords: turbulent swirling flow, separation zone, initial twist, profile of a channel, circumferential and radial velocity components, experimental bench, ball probe, dust and gas stream. 
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P. N. Zyatikov. Experimental studies of swirling flow aerodynamics in an air-centrifugal classifier. Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 1 (2011), pp. 83-92. http://geodesic.mathdoc.fr/item/VTGU_2011_1_a10/

[1] Sosnovskii N. D., Shvab A. V., Zyatikov P. N. i dr., “Vliyanie gidrodinamiki techeniya nesuschei sredy v profilirovannom kanale vozdushno-tsentrobezhnogo klassifikatora na effektivnost razdeleniya poroshkov”, Voprosy aerogidromekhaniki i teploobmena, Izd-vo Tom. un-ta, Tomsk, 1989, 32–47

[2] Zyatikov P. N., Roslyak A. T., “Issledovanie vozdushno-tsentrobezhnogo klassifikatora dispersnykh materialov”, Metody gidroaeromekhaniki v prilozhenii k nekotorym tekhnologicheskim protsessam, Izd-vo Tom. un-ta, Tomsk, 1977, 134–143

[3] Launder V. E., Priddin S. N., Sharma V. I., “Raschet turbulentnogo pogranichnogo sloya na vraschayuschikhsya i krivolineinykh poverkhnostyakh”, Teoreticheskie osnovy inzhenernykh raschetov, 1977, 332–340

[4] Adams R., Rais V., “Eksperimentalnoe issledovanie techeniya mezhdu sovmestno vraschayuschimisya diskami”, Prikladnaya mekhanika, 37:3 (1970), 272–277

[5] Zyatikov P. N., Roslyak A. T., Kuznetsov G. V., “Issledovanie turbulentnogo zakruchennogo potoka vo vraschayuschemsya separatsionnom elemente peremennogo secheniya”, Teplofizika i aeromekhanika (Novosibirsk), 16:2 (2009), 253–259

[6] Petunin A. M., Metody i tekhnika izmerenii parametrov gazovogo potoka, Mashinostroenie, M., 1972, 212 pp.

[7] Kutateladze S. S., Volchkov E. P., Terekhov V. I., Aerodinamika i teplomassoobmen v ogranichennykh vikhrevykh potokakh, ITF SO AN SSSR, Novosibirsk, 1987, 282 pp.

[8] Shvab A. V., Zyatikov P. N., Sadretdinov Sh. R., Chepel A. G., “Issledovanie zakruchennogo turbulentnogo techeniya v rabochei zone vozdushnogo-tsentrobezhnogo klassifikatora”, PMTF (Novosibirsk), 51:2 (2010), 253–259