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  4. DETERMINATION OF THE PATTERN OF DUST AND AIR FLOW MOVEMENT IN VORTEX MECHANISM

DETERMINATION OF THE PATTERN OF DUST AND AIR FLOW MOVEMENT IN VORTEX MECHANISM

EP.
2022;
Volume 7, Number 2
: pp.97-102
https://doi.org/10.23939/ep2022.02.097
Authors:
  1. Volodymyr Kaspruk
  2. Stepan Balaban
  3. Yaroslav Yarosh
1
Ternopil Ivan Pulyj National Technical University
2
Ternopil Ivan Pulyj National Technical University
3
Poliskyy Natsionalnyy Universytet

At present, the problem of air pollution is a serious environmental problem that negatively affects the living conditions and health of people. The composition of atmospheric air in large industrial and urban agglomerations depends on the type of production and the level of its technology. A promising method of improving dust collectors is the creation of dust collectors, where the principles of operation of several devices are implemented.

deduster
process of separation
hydraulic resistance
deduster efficiency

1. Batluk V., Basov, M & Dorundyak, L. (2012). Matematic model of the process of dust catching in an ahharatus with a movable separator. Econtechmod, 1(1), 13-16.

2. Caryk, L. P., Caryk, P. L., & Vitenko, I. M. (2011). Ekolohija: Pidruсhnyk 2-he vyd.  Kyïv: Heneza. Retrieved from https://shkola.in.ua/530-ekolohiia-11-klas-tsaryk.html

3. Cilibert, D., & Lancaster, B. (2016). Fine dust collecion in a rotary flow ciclone and wortex chambers. Chem.Eng., Westinghouse Reseach Labor., 6, 1150-1152.

4. Gumnytskyi, Ya. M. & Kuts, V. P. (2015) Suchasni pidkhody do neobkhidnosti ochyshchennia promyslovykh i ventyliatsiinykh vykydiv v atmosferu, Materialy mizhnarodnoi naukovo-praktychnoi konferentsii „Suchasni osoblyvosti formuvannia i upravlinnia innovatsiinym potentsialom rehionalnoho rozvytku turyzmu ta rekreatsii iz zaluchenniam molodizhnoho resursu“, TNTU 2015, Ternopil, Ukraina, Vydavnytstvo TNTU.

5. Hurets, L.L., Kozii, I. S. & Miakaieva H. M. (2017). Directions of the environmental protection processes optimization at heat power engineering enterprises. Journal of Engineering Sciences, 4(2), G12-G16.

https://doi.org/10.21272/jes.2017.4(2).g12

6. Kaspruk, V. & Kuts V. (2015) Analiz metodiv rozrakhunku vykhrovykh pylovlovliuvachiv, Mizhnarodna naukovo-tekhnichna konferentsiia «Fundamentalni ta prykladni problemy suchasnykh tekhnolohii», TNTU 2015, Ternopil, Ukraina, Vydavnytstvo TNTU.

7. Kouzov, Y. E., & Yofynov, H. A. (2011). Edynaja metodyka sravnytelnych yspytanyj pyleulovytelej dlja očystky ventyljacyonnoho vozducha. Lenynhrad: VNYYOT VCSPS.

8.  Rybdylovaa, O., Qubeissia, M. Al., Braunc, M., Cruaa, C., Manind, J., Pickettd, L.M., Serceya, G., Sazhinaa, E.M., Sazhina, S.S. & Heikal M. (2016) A model for droplet heating and its implementation into ANSYS Fluent. International Communications in Heat and Mass Transfer, 76, 285-270. http://doi.org/10.1016/j.icheatmasstransfer.2016.05.032

https://doi.org/10.1016/j.icheatmasstransfer.2016.05.032

9. Savchenko-Pererva, M.Iu. &  Yakuba, O.R. (2015). Improving the efficiency of the apparatus with counter swirling flows for the food industry.  Eastern-European Journal of Enterprise Technologies, 3/10 (75), 43–48. https://doi.org/10.15587/1729-4061.2015.43785

https://doi.org/10.15587/1729-4061.2015.43785