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Biokinetic parameters help to describe the rate of substrate utilization and biomass production or growth by microbial action, which is important to the design process and performance optimization of wastewater treatment. Although studies of the biokinetic parameters of aerobic granular sludge (AGS) systems have been increasing lately, the significance for each value in terms of maximum specific growth rate (μmax), substrate concentration at one-half of the maximum specific growth rate (KS), and cell yield (Y) in relation to the applied operating conditions are rarely discussed. Therefore, this study investigates the relationship and significance between the above-stated biokinetic parameters with organic loading rate (OLR) and reactor height/diameter (H/D) ratio from five different batches of AGS treated sewage, using the independent t-test. The biokinetic parameters are summarized as biomass production (Y and μmax) and relied upon the relative increase in the OLR and reactor H/D ratios. Additionally, aerobic granules developed in reactors with a high H/D ratio have a shorter setup time and are more active in contrast with low H/D ratio reactors.
Czasopismo
Rocznik
Tom
Strony
161--171
Opis fizyczny
Bibliogr. 23 poz., tab.
Twórcy
autor
- School of Civil Engineering, Engineering Campus, Universiti Sains Malaysia, Nibong Tebal, Malaysia
autor
- School of Civil Engineering, Engineering Campus, Universiti Sains Malaysia, Nibong Tebal, Malaysia
Bibliografia
- 1. Awang, N.A. and Shaaban, M.D. 2016. Effect of Variable and Low Organic Loading Rate on Formation Aerobic Granular Sludge in Sewage Treatment. Journal of Advanced Research in Materials Science 112, 1-10.
- 2. Mizzouri, N.S. and Shaaban, G. 2013. Kinetic and hydrodynamic assessment of an aerobic purification system for petroleum refinery wastewater treatment in a continuous regime. International Biodeterioration. & Biodegradable 83, 1-9.
- 3. Mardani, Sh., Mirbagheri, M., Amin, M. and Ghasemian M. 2011. Determination of biokinetic coefficients for activated sludge processes on municipal wastewater. Journal of Environmental Health Science &Engineering 8, 25-34.
- 4. Okpokwasili, G.C. and Nweke, C.O. 2005. Microbial growth and substrate utilization kinetics. Journal Biotechnology 5, 305-317.
- 5. Winkler, M.K.H., Meunier, C., Henriet, O., Mahillon, J., Suárez-Ojeda, M.E, DelMoro, G., DeSanctis, M., DiIaconi, C. and Weissbrodt, D.G. 2018. An integrative review of granular sludge for the biological removal of nutrients and recalcitrant organic matter from wastewater. Journal Chemical Engineering 336, 489-502.
- 6. Amaldos, M., Amerlinck, Y., Rehman, U., Rehman, T.C., Van Hoey, W. and Naessens, S. 2015. Understanding conventional modeling concepts in novel wastewater treatment processes. Water Research 70, 458-470.
- 7. Zhang, Q., Hu, J. and Lee, D.J. 2016. Aerobic granular processes: current research trends. Bioresource Technology 210, 74-80.
- 8. Nancharaiah, Y.V. and Kiran, K.R.R.G. 2018. Aerobic granular sludge technology: mechanisms of granulation and biotechnological applications. Bioresource Technology 247, 1128-1143.
- 9. Gupta, V.K, Ali, I., Saleh, T.A., Nayak, A. and Agarwal, S. 2012. Chemical treatment technologies for waste-water recycling-an overview. RSC Advances 2, 6380-6388.
- 10. Cohen, J., West, S.G. and Aiken, L.S. 2007. Applied multiple regression/correlation analysis for the behavioural sciences. Routledge.
- 11. Levene, H., West, S.G. and Aiken, L.S. 1960. Robust tests for equality of variances”. In: Olkin, I. (Ed.). Contributions to Probability and Statistics. Stanford University Press, Palo Alto, California, 278-292.
- 12. Chen, Y., Jiang, W., Liang, D.T. and Tay, J.H. 2008. Biodegradation and kinetics of aerobic granules under high organic loading rates in sequencing batch reactor. Applied Microbiology and Biotechnology 79, 301-308.
- 13. Asadi, A., Zinatizadeh, A.A. and Sumathi, S. 2014. Industrial estate wastewater treatment using single up-flow aerobic/anoxic sludge bed (UAASB) Bioreactor: a kinetic evaluation study. Environment. Program Sustain. Energy 33, 1-9.
- 14. Lateef, A., Chaudhry, M.N. and Ilyas, S. 2013. Biological treatment of dairy wastewater using activated sludge. Science Asia 39, 179-185.
- 15. Chen, H.Y., Hong, P.K., Yang, P.Y., Yang, K.K.Ng.S.F. and Lee, C.H. 2015. A pilot study on suspended activated sludge process augmented with immobilized biomass for simultaneous nitrification and denitrification. Journal of Water Reuse and Desalination 5, 157-165.
- 16. Schmider, E., Ziegler, M., Danay, E. and Buehner, M. 2010. Is it really Robust. Methodology European Journal of Research Methods for the Behavioral and Social Sciences, 147-151.
- 17. Winkler, M.K.H., Kleerebezem, R., Strous, M., Chandran, K. and Van Loosdrecht, M.C.M. 2013. Factors influencing the density of aerobic granular sludge. Applied Microbiology Biotechnology 97, 7459-7468.
- 18. Rocktäschel, T., Klarmann, C., Helmreich, B., Ochoa, J., Boisson, P., Sørensen, KH and Horn, H. 2013. Comparison of two different anaerobic feeding strategies to establish a stable aerobic granulated sludge bed. Water Resource 47, 6423-6431.
- 19. Henriet, O, Henriet, C.C.P. and Mahillon, J. 2016. Improving phosphorus removal in aerobic granular sludge processes through selective microbial management. Bioresource Technology 211, 298-306.
- 20. Devlin, T.R. and Oleszkiewicz, J.A. 2018. Cultivation of aerobic granular sludge in continuous flow under various selective pressure. Bioresource Technology 253, 281-287.
- 21. Mehrabadi, Z.S. and Zinatizadeh, A. 2014. Performance of a compartmentalized activated sludge (CAS) system treating a synthetic antibiotics industrial wastewater (SAW). Journal of Water Process Engineering 3, 26-33.
- 22. Kaewsuk, J., Thorasampan, W., Thanuttamavong, M. and Tae, G. 2010. Kinetic development and evaluation of membrane sequencing batch reactor ( MSBR) with mixed cultures photosynthetic bacteria for dairy wastewater treatment. Journal Environment Management 91, 1161-1168.
- 23. Zhou, D., Niu, S, Xiong, Y, Yang, Y. and Dong, S. 2014. Microbial selection pressure is not a prerequisite for granulation: dynamic granulation microbial community study in a complete mixing bioreactor. Bioresource Technology 161, 102-108.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cb9e2234-ee3b-4ccb-9ef7-4b956a805cba