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Title of article INTENSIFICATION OF YEAST BIOMASS CULTURING IN A FILM BIOREACTOR
Authors

Voinov N. , Siberian State Technological University , pr. Mira 82, Krasnoyarsk, 660049 Russia , Voynov@Siberianet.ru

Zhukova O. , Siberian State Technological University , pr. Mira 82, Krasnoyarsk, 660049 Russia

Nikolaev A. , Siberian State Technological University , pr. Mira 82, Krasnoyarsk, 660049 Russia

Section: PROCESSES, EQUIPMENT AND APPARATUS FOR THE FOOD INDUSTRY
Year 2013 Issue 2 DOI 663.12:57.083.13
Annotation The results of Doctor N.A. Voinov and his colleagues’ research aimed at developing gas-liquid film bioreactors are systematized. Fluid dynamics and heat and mass transfer in a liquid film flowing by gravity down a surface with artificial large-scale roughness have been investigated. Relationships based on the plug flow model are suggested for calculating mass transfer in the working zones of the bioreactor. Ways of raising the productivity of the apparatus and reducing the cost of culturing Candida scottii yeast are considered. Closed-loop gas circuit schemes are suggested for the film bioreactor.
Keywords film bioreactor, yeast biomass, heat transfer, mass transfer, artificial roughness
Artice information Received November 30, -0001
Accepted November 30, -0001
Available online November 30, -0001
Imprint article Voinov N. INTENSIFICATION OF YEAST BIOMASS CULTURING IN A FILM BIOREACTOR / Voinov N., Zhukova O., Nikolaev A. // Food and Raw Materials. - 2013. - №2. - С. 57-66
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Bibliography
  1. Kafarov, V.V., Vinarov, A.Yu., and Gordeev, L.S., Modelirovanie biokhimicheskikh reaktorov (Modeling of Biochemical Reactors), Moscow: Lesnaya Promyshlennost’, 1979.
  2. Henstook, W.H. and Hanratty, T.J., AIChE Journal, 1979, vol. 25, no. 1, pp.122-131.
  3. Hubbard, G.L., Mills, A.F., and Chung, D.K., Journal of Heat Transfer, 1976, vol. 98, pp. 319-320.
  4. Hewitt, G. and Hall-Taylor, N., Annular Two-Phase Flow, Oxford: Pergamon, 1970.
  5. USSR Inventor’s Certificate no. 1089117, Byulleten’ izobretenii (Inventions bulletin), 1984, no 16.
  6. USSR Inventor’s Certificate no. 1655980, Byulleten’ izobretenii (Inventions bulletin), 1991, no. 22.
  7. USSR Inventor’s Certificate no. 1507786, Byulleten’ izobretenii (Inventions bulletin), 1989, no. 34.
  8. USSR Inventor’s Certificate no. 1717627, Byulleten’ izobretenii (Inventions bulletin), 1992, no. 9.
  9. USSR Inventor’s Certificate no. 1717628, Byulleten’ izobretenii (Inventions bulletin), 1992, no. 9.
  10. Voinov, N.A., Sugak, E.V., Nikolaev, N.A., and Voronin, S.M., Plenochnye bioreaktory (Film Bioreactors),Krasnoyarsk: BORGES, 2001.
  11. Voinov, N.A., Gurulev, K.V., and Volova, T.G., Biotechnology in Russia, 2005, no. 3, pp. 98-107.
  12. Voinov, N.A. and Nikolaev, A.N., Teplos"em pri plenochnom techenii zhidkosti (Heat Transfer in Liquid Film Flow), Kazan: Otechestvo, 2011.
  13. Voinov, N.A. and Nikolaev, N.A., Plenochnye trubchatye gazo-zhidkostnye reaktory (Tubular Gas-Liquid Film Reactors), Kazan: Otechestvo, 2008.
  14. RF Patent 2012593, Byulleten’ izobretenii (Inventions bulletin), 1994, no. 9.
  15. RF Patent 22211038, Byulleten’ izobretenii (Inventions bulletin), 2004, no. 1.
  16. Nikolaev, A.M., Voinov, N.A., and Nikolaev, N.A., Theoretical Foundations of Chemical Engineering, 2001, vol. 35, no. 2, pp. 196-198.
  17. Markov, V.A., Voinov, N.A., and Nikolaev, N.A., Teoreticheskie osnovy khimicheskoi tekhnologii (Theoretical foundations of chemical engineering), 1990, vol. 24, no. 4, pp. 442-449.
  18. Nicolaev N.A., Voinov, N.A., Markov, U.A., Acta Biotechnologica, 1991, no. 3, pp. 205-210.
  19. Nikolaev, A.N. and Voinov, N.A., Biotekhnologiya (Biotechnology), 2009, no. 5, pp. 74-79.
  20. Volova, T.G. and Voinov, N.A., Applied Biochemistry and Microbiology, 2004, vol. 40, no. 3, pp. 249-252.
  21. Voinov, N.A., Nikolaev, A.N., and Voinova, O.N., Khimiya rastitel’nogo syr’ya (Vegetable raw materials chemistry), 2009, no. 4, pp. 183-193.
  22. Voinov, N.A., Konovalov, N.M., and Nicolaev N.A., Teoreticheskie osnovy khimicheskoi tekhnologii (Theoretical foundations of chemical engineering), 1993, no. 6, pp. 638-641.
  23. Davies, J.T., AIChE Journal, 1972, vol. 18, no. 1, pp. 169-173
  24. Hisashi, M., Yasushi, K., Toshiyki, H., and Tatsuo, N., Kaganu Kogaku Ronbunshu, 1991, vol.2, pp. 308-396.
  25. Chang, P., Control of Flow Separation, Washington, DC: Hemisphere, 1976.
  26. Voinov, N.A. and Volova, T.G., Khimicheskaya promyshlennost’ (Chemical industry), 2007, vol. 84, no. 3, pp. 145-150
  27. Keitel, G. and Onken, U., German Chemical Engineer, 1981, vol. 4, pp. 250-258.
  28. Markov, V.A., Voinov, N.A., and Nikolaev, N.A., Theoretical Foundations of Chemical Engineering, 1991, vol. 24, no. 4, pp. 292-298.
  29. Konovalov, N.M., Voinov, N.A., Markov, V.A., and Nikolaev, N.A., Teoreticheskie osnovy khimicheskoi tekhnologii (Theoretical foundations of chemical engineering), 1993, vol. 27, no. 3, pp. 309-314.
  30. Chung L.K. and Mills A.F., Letters in Heat and Mass Transfer, 1974, vol. 1, p. 43.
  31. Voinov, N.A., Nikolaev, N.A., Eremenko, N.A., and Karpeza, A.G., Khimiya rastitel’nogo syr’ya (Vegetable raw materials chemistry), 2006, no. 2, pp. 51-60.
  32. VoЗђnov, N.A., VoЗђnova, O.N., and Sugak, E.V., Thermal Engineering, 2004, vol. 51, no. 3, pp. 211-215.
  33. Voinov, N.A., Zhukova, O.P., and Nikolaev, A.N., Theoretical Foundations of Chemical Engineering, 2012, Vol. 46, no. 4, pp. 432-440.
  34. Miller, D.N., AIChE Journal, 1974, vol. 20, no. 3, pp. 445-453.
  35. Strenk, F., Peremeshivanie i apparaty s meshalkami (Stirring and Stirred Apparatuses), Leningrad: Khimiya, 1975.
  36. Nikolaev, N.A., Voinov, N.A., Markov, V.A., and Gavrilov, A.V., Biotekhnologiya (Biotechnology), 1993, no. 3, pp. 23-25.

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