In this paper, the mathematical model of heat exchange in the system to maintain temperature in anaerobic digester , which allows calculating the hydrodynamic and temperature fields inside the reactor.
метантенк, теплообмен, температурный режим, anaerobic digester, heat exchange, temperature
1. B. Wu, E.L Bibeau, K.G. Gebremedhin. Three-dimensional numerical simulation model of biogas production for anaerobic digesters. Canadian Biosystems Engineering, 51, 81 - 87 (2009).
2. A.Z. Mindubaev, S.T. Minzanova, E.V. Skvorcov, V.F. Mironov, V.V. Zobov, F.Yu. Ahmadullina, L.G. Mironova, D.E. Belostockiy, A.I. Konovalov, Optimizaciya parametrov vyrabotki biogaza v laboratornom masshtabe, Vestnik Kazan. tehnol. un-ta, 4, 233 - 240 (2009).
3. D.V. Kostromin. Avtoref. diss. kand. teh. nauk, GNU GOSNITI, Moskva, 2010. 18 s.
4. J.G. Fleming. Novel simulation of anaerobic digestion using computational fluid dynamics. PhD Dissertation. North Carolina State University, Raleigh, NC. 2002.
5. M.S. Vesvikar, M. Al-Dahhan. Flow pattern visualization in a mimic anaerobic digester using CFD. Biotechnology and Bioengineering, 89, 719 - 732 (2005).
6. K.G. Gebremedhin, B. Wu, C. Gooch, P. Wright, S. Inglis. Heat transfer model for plug-flow anaerobic digesters. Transactions of the ASABE, 48, 777-785 (2005).
7. B. Wu, E.L. Bibeau. Development of 3-D anaerobic digester heat transfer model for cold weather applications. Transactions of the ASABE, 49, 749-757 (2006).
8. B. Wu, S. Chen. CFD simulation of non-Newtonian fluid flow in anaerobic digester. Biotechnology and Bioengineering, 99, 700-711 (2008).
9. S.V. Sat'yanov. Avtoref. diss. kand. teh. nauk, FGOU VPO RGAZU, Moskva, 2011. 25 s.
10. O.V. Chebotareva, V.A. Serbin, N.V. Kolosova. Teploobmen s okruzhayuschey sredoy metantenka dlya sbrazhivaniya biomassy. Vіsnik Donbas'koї nacіonal'noї akademії budіvnictva і arhіtekturi, vipusk, 6, 86, 31 -36 (2010).
11. V.S.Vohmin. Avtoref. diss. kand. teh. nauk, Izhevskaya GSHA, Izhevsk, 2012. 20 s.
12. M.M. Hamokov. Avtoref. diss. kand. teh. nauk, KBGSHA im. V.M. Kokova, Nal'chik, 2012. 19 s.
13. A.A. Zemlyanka. Matematicheskaya model' gidrodinamiki i teploobmena v cilindricheskom fermentatore biogazovoy ustanovki s pogruzhennym v nego cilindricheskim teploobmennikom // Voprosy himii i himicheskoy tehnologii, 1, 181 - 187 (2004).
14. E.K. Vachagina, Yu.V. Karaeva. Matematicheskaya model' dvizheniya dvuhfaznoy gazozhidkostnoy sredy v cilindricheskom fermentatore biogazovoy ustanovki // Al'ternativnaya energetika i ekologiya, 10, 79 - 84 (2009).
15. A.G. Kudryashova. Avtoref. diss. kand. teh. nauk, Izhevskaya GSHA, Izhevsk, 2011. 20 s.
16. R.G. Shayahmetov. Vliyanie konstrukciy cirkulyacionnyh ustroystv na intensifikaciyu raboty metantenkov // Molodoy uchenyy, 5, 28, 113-116 (2011).
17. P. Zhermeyn. Kurs mehaniki sploshnyh sred. M.: Vysshaya shkola, 1983, 399s.
