Mechanisms of Biological Processes in Domestic Wastewater Treatment Plants
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University of Zielona Góra, Poland
Online publication date: 2019-01-03
Publication date: 2018-09-01
Civil and Environmental Engineering Reports 2018;28(3):177-192
The growing demand for solutions of household sewage treatment plants means that many new or improved technological solutions are available on the market. The implementation of these technologies is associated with the need to known the mechanisms of the unitary biological processes occurring when removing organic carbon, nitrogen and phosphorus from wastewater. Determining the optimal conditions for these processes will determine the correct operation of the household sewage treatment plant.
Bârsan N., Nedeff V., Lazăr G.: Current stage of domestic wastewater treatment in small plants, Journal of Engineering Studies and Research, (2011), Vol. 17 No. 4.
Vymazal J.: Horizontal sub-surface flow and hybrid constructed wetlands systems for wastewater treatment. Ecological Engineering, (2005) 25 (5), 478-490.
Myszograj S., Bydałek F.: Temperature impact of nitrogen transformation in technological system: vertical flow constructed wetland and polishing pond, Civil and Enviromental Engineering Reports, (2016), 23 (4), 125-136.
Myszograj S., Bydałek F., Płuciennik-Koropczuk E.: Evaluation of seasonal activity of various bacteria in a constructed wetland using AT4 and TTC tests, Desalination and Water Treatment, (2018), Vol. 134, 188-198.
Deublein D., Steinhauser A.: Biogas from waste and renewable resources. Wiley-VCH Verlag, 2008, ISBN 9783527318414.
Quansheng D., Qixing Ch., Zehui L., Shouwei Z. : Application of microbial technology in wastewater treatment. Progress in Applied Microbiology, (2017) https://http://ojs.whioce.com/....
Saad A. Al-Jlil, COD and BOD reduction of domestic wastewater using activated sludge, sand filters and activated carbon in Saudi Arabia. Biotechnology, (2009), 8, 473-477, DOI: 10.3923/biotech.2009.473.477.
Sedlak R. I., Phosphorus and Nitrogen Removal from Municipal Wastewater: Principles and Practise, Lewis Publishers, 1991.
Mino T.: Microbial selection of polyphosphate accumulating bacteria in activated sludge wastewater treatment process for enhanced biological phosphate removal. Biochemistry (Moscow), Vol. 65, No. 3, 2000, pp. 341-348.
Kassab G., Halalsheh M., Klapwijk A., Fayyad M., Van Lier J.B.: Sequential anaerobic-aerobic treatment for domestic wastewater -A Review. Bioresource Technology, (2010) 101, 3299-3310.
Aiken G.R., Mcknight D. Wershaw. An introduction to humic substances in soil, sediments, and water. A Wiley-Interscience Publication, (1985).
Myszograj S.: The impact of temperature on the removal of nitrogen compounds in activated sludge system, British Journal of Applied Science & Technology, (2015), Vol. 11, no. 1, 1-13.
Hochstein L.I., Tomlinson G.A., The enzymes associated with denitrification, Annual Review of Microbiology, (1988), DOI: 10.1146/annurev.mi.42.100188.001311.
Kerrn-Jespersen J.P., Henze M.: Biological phosphorus uptake under anoxic and aerobic conditions. Water Research, (1993), Vol. 27 (4), 617-624.
Płuciennik-Koropczuk E., Myszograj S.: Zahn-Wellens test in industrial wastewater biodegradability assessment, Civil and Environmental Engineering Reports, (2018), 1 (28), 77-86; DOI: 10.2478/ceer-2018-0007.
Orhon D., Artan N.: Modelling of activated sludge systems, Tedchnomic Publishing Company, USA, 1994.
Comeau Y., Hall R., Hancock E.W., Oldham W.K.: Biochemical model for enhanced biological phosphorus removal, Water Research, (1986), Vol. 20 (12), 1511-1521.
Dacheng L., Linjiang Y., Lun L., Yang W., Wenwen F.: The mechanism of biological phosphorus removal under anoxic-aerobic alternation condition with starch as sole carbon source and its biochemical pathway, Biochemical Engineering Journal, (2018) Vol.132, 90-99.
Guerrero J., Albert Guisasola, Juan A. Baeza: The nature of the carbon source rules the competition between PAO and denitrifiers in systems for simultaneous biological nitrogen and phosphorus removal, Water Research, (2011) Vol. 45 (16), 4793-4802.
Lantzke I.R, Mitchell D.S, Heritage A.D, Sharma K.P.: A model of factors controlling orthophosphate removal in planted vertical flow wetlands, Ecological Engineering, (1999) vol.12, 93-105.
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