Mathematical modeling of anaerobic fermentation processes of organic substrate. Review
DOI:
https://doi.org/10.15587/2313-8416.2014.28767Keywords:
Anaerobic fermentation, mathematical modeling, wastewater treatment, bioreactorAbstract
An analysis of existing models of anaerobic fermentation of organic matter with biogas emission is performed. The most used in the literature models describing the kinetics of methane fermentation, as well as the kinetic parameters of the process are presented. The proposed models describe the growth and development of the microbial population, the degradation of substrate components and formation of reaction products in the anaerobic microbial bioreactor.
References
1. Gerber, M., Span, R. (2008). An Analysis of Available Mathematical Model for Anaerobic Digestion of Organic Substances for Production of Biogas. International Gas Union Research conference, Paris, 1, 1294–1324.
2. Laurent, L. (2001). Modélisation des biofilms de digestion anaérobie par système multi-agents: Mémoire de DAA, 79.
3. Hu, W. C., Thayanithy, K., Forster, C. F. (2001). Kinetic study of anaerobic digestion of sulfate-rich wastewaters from manufacturing food industries. 7th International Conference on Environmental Science and Technology. Ermoupolis, Syros island (Greece), 342–349
4. Havlik, I., Votruba, J., Sobotka, M. (1986). Mathematical modeling of the anaerobic digestion process: application of dynamic mass-energy balance. Folia Microbiol, 31 (1), 56–68. doi: 10.1007/bf02928680
5. Moletta, R., Verrier, D., Albagnac, G. (1986). Dynamic modeling of anaerobic digestion. Water Research, 20 (4), 427–434.
6. Kiely, G., Tayfur, G., Dolan, C., Tanjf, K. (1997). Physical and mathematical modelling of anaerobic digestion of organic wastes. Water Research. Great Britain: Pergamon Press Ltd, 31 (3), 534–540. doi: 10.1016/s0043-1354(96)00175-3
7. Lyberatos, G., Skiadas, I. V. (1997). Modelling of anaerobic Digestion - a review. Global Nest: the Int. J., 1 (2), 63–76.
8. IWA Task Group on Biofilm Modeling (2006). Mathematical Modeling of . IWA Publishing, 208.
9. Guyot, J.-P. Etude de quelques interactions microbiennes lors de la digestion anaerobie de la matiere organique par des cultures mixtes definies ou naturelles. Aix-Marceille (France), 123.
10. Hence, М. P., Armoes, Y., Lya-Kur-Yasen, E. A. (2009). Ochistka stochnyih vod. Moscow, Russia: Mir, 480.
11. Semenenko, I. V. (1996). Proektirovanie biogazovyih ustanovok. Sumyi (Ukraine): PF «MakDen», IPP «Mriya-1» LTD, 347.
12. Kalyuzhnyiy, S. V. (2004). Vyisokointensivnyie anaerobnyie tehnologii ochistki promyishlennyih stochnyih vod. Kataliz v promyishlennosti, 6, 42––50.
13. Hansruedi, S., Dea, V., Jaime, L. Garcia-Heras, Willi, G. (2002). Mathematical Model for Meso- and Thermophilic Anaerobic Sewage Sludge Digestion Environ. Sci. Technol, 36 (5), 1113–1123. doi: 10.1021/es010139p
14. Kalyuzhnyi, S. V., Davlyatshina, M. A. (1997). Batch anaerobic digestion of glucose and its mathematical modeling. I. Kinetic investigations. Biores. Technol., 59 (1), 73–80. doi: 10.1016/s0960-8524(96)00124-1
15. Kalyuzhnyi, S. V. (1997). Batch anaerobic digestion of glucose and its mathematical modeling. II. Description, verification and application of model. Biores. Technol., 59 (2-3), 249–258. doi: 10.1016/s0960-8524(96)00125-3
16. Batstone, D. J., Keller, J., Angelidaki, I., Kalyuzhnyi, S. V., Pavlostathis, S. G., Rozzi, A., Sanders, W. T. M., Siegrist, H., Vavilin, V. A (2002). Anaerobic Digestion Model No.1 (ADM1). Scientific & Technical Report. IWA Publishing, 80.
17. Batstone, D., Keller, J., Angelidaki, I., Kalyuzhnyi, S., Pavlostathis, S., Rozzi, A., Sanders, W., Siegrist, H., Vavilin, V. (2002). The IWA Anaerobic digestion Model No 1. Wat. Sci. Technol., 45 (10), 65–73.
18. Simeonov, I., Stoyanov, S. (2003). Modelling and Dynamic Compensator Control of the Anaerobic Digestion of Organic Wastes. Chem. Biochem. Eng. Q.17 (4), 285–292.
19. Pullammanappallil, N. A., Pratap, C., Clarke, W. P.(2007). Kinetics and dynamic modelling of batch anaerobic digestion of municipal solid waste in a stirred reactor. Waste Management, 27 (5), 595–603. doi: 10.1016/j.wasman.2006.04.010
20. Hill, D. T., Barth, C. L. (1977). A Dynamic Model for Simulation of Animal Waste Digestion. Journal of Water Pollution Control Federation, 49 (10), 2129–2143
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