Istrazivanja i projektovanja za privreduJournal of Applied Engineering Science

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MODELINg OF HYDRODYNAMIC AND HEAT AND MASS TRANSFER PROCESSES IN ABSORPTION OF THE DRYINg AIR EMISSIONS


DOI 10.5937/jaes17-22884
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions. 
Creative Commons License

Volume 17 article 623 pages: 408 - 412

Shchedrina Galina Gennadevna*
Southwest State University, Kursk, Russian Federation

Shchedrin Dmitrii Gennadevich
Southwest State University, Kursk, Russian Federation

High efficiency drying wet gases are film contact apparatus chlorotoluene installations. The object of the study is ventilation emissions characterized by high moisture content. The paper presents a mathematical model of the absorption drying of wet ventilation emissions for devices with a regular nozzle of rigidly fixed porous plates of microporous plastic. The obtained criterion equations allow to carry out engineering calculations of air drying absorption devices.

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1. Gogish L.V., Stepanov G.Yu. Gidrodinamicheskie modeli turbulentnogo otryvnogo obtekaniya tel// Strujnye i otryvnye techeniya / Sb. nauchn. tr.(in-t mekhaniki MGU). - M., 1989. - S.39-49.

2. Kutateladze S.S., Leont'ev A.M. Teplomassoobmen i trenie v turbulentnom pogranichnom sloe. - M.: Energoatomizdat, 1985. - 320 s.

3. Kejs V.M. Konvektivnyj teplo- i massoobmen. - M.: Energiya, 1972. - 440 s.

4. Birkgof G. Gidrodinamika [Tekst] :M.: Izdatel'stvo inostrannoj literatury. 1963.- 244 s.

5. Bennet K.O Gidrodinamika, teploobmen i massoobmen [Tekst] / Bennet K.O., Majers Dzh. E. M.: Nedra, 1966. - 726 s.

6. Berd R. Yavleniya perenosa [Tekst] / Berd R., St'yuart V., Lajtfut E. M.: Himiya. 1974. 688 s.

7. Pat. 62033 Rossijskaya Federaciya, MPK B 01 D 53/18, B 01 D 46/26. Apparat dlya obrabotki gaza / Shchedrina G.G., Kobelev N.S., Komyagin M.S. i dr.; zayavitel' i patentoobladatel' Kurskij gos. tekhn. un-t. - № 2006140395/22; zavl. 15.11.2006; opubl. 27.03.2007, byul. №9.

8. Shchedrina G.G., Gnezdilova O.A. Morzhavin A.V. K voprosu modelirovaniya teplomassoobmena v energosberegayushchih apparatah osushki vozduha / Evrazijskij soyuz uchenyh (ESU), 2014. - № 8. – S. 100-102.

9. Shchedrina G.G., Gnezdilova O.A. Metody intensifikacii teplomassoobmena v energosberegayushchih apparatah osushki vozduha / Mezhdunarodnyj forum «Krym HI-TECH – 2014»: Sbornik tezisov dokladov. – M, 2015. - S. 269-272.

10. Shchedrina G.G., Gnezdilova O.A. Osobennosti teplomassoobmena v absorbcionnyh ustanovkah / Elektrika, 2015. - № 4. – S. 34-37.

11. Shchedrina G.G., Morzhavin A.V., Shchedrin D.G. Energoeffektivnye sistemy ochistki ventilyacionnyh vybrosov / Materialy VI Mezhdunarodnoj molodezhnoj nauchnoj konferencii «Molodezh' i XXI vek - 2016». - 2016, - TOM 3, - S. 353-356.

12. Shchedrina G.G. Absorbcionnaya osushka vozduha. Modeli i tekhnicheskie resheniya: Monografiya / Kursk: Yugo-Zap. Gos. un-t., 2016. - 116 s.

13. Yezhov, V., Ezhova, T., Semicheva, N., & Makhova, V. [2017]. Outdoor air conditioning. Journal of Applied Engineering Science, 15(3), 313-318.

14. Ismail, N., Soeparman, S., Widhiyanuriyawan, D., & Wijayanti, W. [2019]. The influence of pores size and type of aggregate on capillary heat and mass transfer in porous. Journal of Applied Engineering Science, 17(1), 8-17.