Abstract
A bioenergetic methodology was integrated with a modified activated sludge model No. 1 (ASM1) to analyze the activated sludge process, with the treatment of soybean-processing wastewater as an example. With the bioenergetic methodology established by McCarty and coworkers, the microbial yield was predicted and the overall stoichiometrics for biological reactions involving the key chemical and biological species in activated sludge were established. These obtained parameters were related to the ASM1 model, which was modified after coupling the biological reactions in activated sludge with electron balances. This approach was able to approximately describe the treatment of soybean wastewater by activated sludge in a sequencing batch reactor in terms of substrate utilization, biomass growth, and the electron acceptor consumption. Such an attempt provides useful information for accurate modeling of the complex activated sludge process.
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References
APHA: Standard methods for the examination of water and wastewater, 19th edn. American Public Health Association, Washington, DC (1995)
Christensen, D.R., McCarty, P.L.: Multi-process biological treatment model. J. Water Pollut. Contr. Fed. 47, 2652–2664 (1975)
Droste, R.L.: Endogenous decay and bioenergetics theory for aerobic wastewater treatment. Water Res. 32, 410–418 (1998)
Grady, C.P.L. Jr, Glen, T.D., Henry, C.L.: Biological wastewater treatment. 2nd edn. Marcel Dekker, Inc (1999)
Henze, M., Gujer, W., Mino, T., van Loosdrecht, M.C.M.: Activated sludge models ASM1, ASM2, ASM2d, and ASM3. IWA Scientific and Technical Report No. 9. IWA Publishing, London, UK (2000)
Heijnen, J.J., van Loosdrecht, M.C.M., Tijhuis, L.: A black box mathematical model to calculate auto- and heterotrophic biomass yields based on Gibbs energy dissipation. Biotechnol. Bioeng. 40, 1139–1154 (1992)
Keesman, K.J., Spanjers, H.: Endogenous model state and parameter estimation from an extensive batch experiment. Biotechnol. Bioeng. 68, 422–429 (2000)
Keesman, K.J., Spanjers, H., van Straten, G.: Analysis of endogenous process behavior in activated sludge. Biotechnol. Bioeng. 57, 155–163 (1998)
McCarty, P.L.: Energetics and bacterial growth. In: Faust, S.D., Hunter, J.V. (eds.) Organic compounds in aquatic environments. Marcel Dekker, New York (1971)
McCarty, P.L.: Stoichiometry of biological reactions. Paper presented at the International Conference toward a Unified Concept of Biological Waste Treatment Design, Atlanta, 6 Oct 1972.
McCarty, P.L.: Thermodynamics of biological synthesis and growth. In: Baers, J. (ed.) Advances in Water Pollution Research: Proceedings of the 2nd International Conference on Water Pollution Research, pp. 169–199. Pergamon Press, Oxford (1965)
McCarty, P.L.: Thermodynamic electron equivalents model for bacterial yield prediction: Modifications and comparative evaluations. Biotechnol. Bioeng. 97, 377–388 (2007)
Ni, B.J., Yu, H.Q.: A new approach to analyze the activated sludge process: Application to the soybean wastewater treatment in a sequencing batch reactor. AIChE J. 55, 2737–2745 (2009)
Rittmann, B.E., McCarty, P.L.: Environmental biotechnology: Principles and applications, p. 754. McGraw-Hill, New York (2001)
Smets, I.Y., Haegebaert, J.V., Carrette, R., van Impe, J.F.: Linearization of the activated sludge model ASM1 for fast and reliable predictions. Water Res. 37, 1831–1851 (2003)
Su, K.Z., Yu, H.Q.: A generalized model for aerobic granule-based sequencing batch reactor. 1. Model development. Environ. Sci. Technol. 40, 4703–4708 (2006)
van Briesen, J.M., Rittmann, B.E.: Mathematical description of microbiological reactions involving intermediates. Biotechnol. Bioeng. 67, 35–52 (2000)
Xiao, J.H., van Briesen, J.M.: Expanded thermodynamic model for microbial true yield prediction. Biotechnol. Bioeng. 93, 110–121 (2006)
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Ni, BJ. (2013). Thermodynamic Analysis of Wastewater Treatment by Aerobic Granules. In: Formation, characterization and mathematical modeling of the aerobic granular sludge. Springer Theses, vol 131. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-31281-6_5
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DOI: https://doi.org/10.1007/978-3-642-31281-6_5
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