Application of cfd modeling in search energy-efficient ventilation system production premises

In connection with the aggravation of the crisis of energy resources, the issue of creating energy-efficient systems using secondary energy resources occupies an important place. Air exchange in the premises is calculated based on the need to ensure minimum sanitary and epidemiological standards and create comfortable conditions for stay, work and other types of life. The software complex of universal computing programs opens up new unique design opportunities that allow predicting the outcome of an event with maximum accuracy, improving the quality of design. A physicomathematical model of stationary natural-convective and forced turbulent modes of flow of viscous heat-conducting air in a room has been developed. When searching for the optimal ventilation system in the furnace shop, we were guided, first, by regulatory documents that create boundary conditions within which a solution is being sought. The calculations were carried out for several typical variants of air supply to the building.

1. . Radim Gechko. Pravil'nyi vybor. IMI INTERNATIONAL. Praga: 2000.-37 s.

2. . Krasnov YU.S. Sistemy ventilyatsii i konditsionirovaniya. Rekomendatsii po proektirova-niyu dlya proizvodstvennykh i obshchestvennykh zdanii. M: Termokul, 2006. - 288 s.

3. . Donal'd Ross. HVAC Design Guide for Tall Commercial Building. M: «AVOK-PRESS» 2004. - 161s.

4. . Bekker, A. Sistemy ventilyatsii / A. Bek-ker. – M.: Evroklimat, 2005. – 232 s.

5. . Bystrov YU. A. Chislennoe modelirovanie vikhrevoi intensifikatsii teploobmena v paketakh trub / YU. A. Bystrova, S. A. Isaev, N. A. Kudryavtsev, A. I. Leont'ev. – SPb: Sudostroenie, 2005. – 392s.

6. . Gubanov S. M. Fizicheskoe i matematicheskoe modelirovanie protsessov termostatirovaniya v proizvodstve po razdeleniyu izotopov urana. Avto-referat dissertatsii na soiskanie uchenoi stepeni doktora fiziko-matematicheskikh nauk. Tomsk – 2019.

7. . Filippov M. M. Chislennoe modelirovanie protsessa ventilyatsii proizvodstvennogo pomeshcheniya / M. M. Filippov, S. M. Gubanov, A. YU. Krainov, A. A. Kartavykh // Fiziko-tekhnicheskie problemy v nauke, promyshlennosti i meditsine : sbornik nauch-nykh trudov VIII Mezhdunarodnoi nauchno-prakticheskoi konferentsii. Tomsk, 01–03 iyunya 2016 g. – Tomsk, 2016. – S. 98–99.

8. . Anan'ev, V. A. Sistemy ventilyatsii i konditsionirovaniya. Teoriya i praktika / V. A. Anan'ev, L. N. Balueva, A. D. Gal'perin, A. K. Gorodov, M. YU. Eremin, S. M. Zvyagintseva, V. P. Murashko, I. V. Se-dykh. – M.: Evroklimat, 2001. – 416 s.

9. . Belov, I. A. Modelirovanie turbulentnykh techenii: Uchebnoe posobie / I.A. Belov, S.A. Isaev. – SPb.: Balt. gos. tekhn. un-t. SPb, 2001. – 108 s.

10. . Belova, E. M. Sistemy konditsionirovaniya vozdukha s chillerami i fehnkoilami / E. M. Belova. – M.: Evroklimat, 2003. – 400 s.

11. . Danilov, O. L. Prakticheskoe posobie po vyboru i razrabotke ehnergosberegayushchikh proektov: v 7 razdelakh / O. L. Danilov, P. A. Kostyuchenko – M.: ZAO Tekhnopromstroi, 2006. – 668 s.

12. . Kokorin, O. YA. Sovremennye sistemy konditsionirovaniya vozdukha / O. YA. Kokorin. – M.: Izdatel'stvo fiziko-matematicheskoi literatury, 2003. — 272 s.

13. . Kolmogorov, A. N. Uravneniya turbulentnogo dvizheniya neszhimaemoi zhidkosti / A. N. Kolmogorov // Izv. AN SSSR. Ser. fiz. T. 6. - 1942. – S. 299-303.

14. . Krasnov, YU. S. Sistemy ventilyatsii i konditsionirovaniya / YU. S. Krasnov. – M.: Termokul, 2004. – 373 s.

15. . Morozyuk, T. V. Teoriya kholodil'nykh mashin i teplovykh nasosov / T. V. Morozyuk. – M.: Negotsi-ant, 2006. – 764 s.

16. . Sotnikov, A . G . P rotsessy, apparaty i sistemy konditsionirovaniya vozdukha i ventilyatsii: v dvukh tomakh. – SPb.: AT, 2006. – 504 s.

17. . Stefanov, E. V. Ventilyatsiya i konditsionirovanie vozdukha / E. V. Stefanov. – SPb.: AVOK «Severo-ZapaD», 2005. – 391 s.

18. . Frik, P. G. Turbulentnost': modeli i pod-khody. Kurs lektsii. / P. G. Frik. – Perm', Perm. gos. tekhn. un-t., 1998. – 108 s.

19. . Chernyakov, E. V. Avtoreferat dissertatsii na soiskanie uchenoi stepeni kandidata tekhnicheskikh nauk. «Povyshenie ehnergoehffektivnosti sistem pod-gotovki i raspredeleniya vozdukha chistykh pomeshche-niI» / Sankt-Peterburg, 2014.

20. . Chernyakov, E. V. Sravnitel'nyi analiz sistem ventilyatsii i konditsionirovaniya vozdukha v chistykh pomeshcheniyakh i problemy ehnergosberezheniya / Chernyakov E. V. // Tekhnologiya chistoty. – 2012. – №3. – C.25-28.

21. . Chernyakov, E. V. Vliyanie skorosti pritochnogo vozdukha na perenos i udalenie aehrozol'nykh zagryaznenii iz rabochei zony / Chernyakov E. V. // Tekhnologiya chistoty. – 2013. – №4. – S. 23-27.

22. . Shikht, G. G. Tekhnologiya chistykh pomeshchenii: vzglyad v budushchee / Gans G. Shikht // Tekhnologiya chi-stoty. – 2006. – №4. – S. 6-12.

23. . Yun, A. A. Raschet i modelirovanie turbulentnykh techenii s teploobmenom, smesheniem, khimicheskimi reaktsiyami i dvukhfaznykh techenii v programmnom komplekse Fastest-3D: Uchebnoe posobie / A. A. Yun, B. A. Krylov. – M.: Izd-vo MAI, 2007. – 116 s.

24. . Yun, A. A. Teoriya i praktika modelirovaniya turbulentnykh techenii. Monografiya / A.A. Yun. – M.: Librokom, 2009. – 272 s.

25. . Chen, J. J. The development of fan filter unit with flow rate feedback control in a cleanroom / Juhn-Jie Chen, Chao-Ho Lan, Ming-Shan Jeng, Tengfang Xu // Building and Environment, Volume 42, Issue 10. – October 2007. – P. 3556-356.

26. . Fitzpatrick, M. Cleanroom Airflows Part II: The Messy Details. Cleanrooms / M. Fitzpatrick, K. Goldstein. URL: http://cr.pennet.com/.

27. . Fox, R. W. Introduction to fluid mechanics (6th ed.) / R. W. Fox, A. T. McDonald, Phillip J Pritchard. – USA: John Wiley and Sons, 2004. – 348 p.

28. . Flaherty, R. Clean rooms: Continuing evolution of fan filter units for clean rooms / Rob Flaherty // Filtration + Separation, Volume 48, Issue 4, – August 2011. – P. 33-34, 36-37.