COMPARATION OF THE EFFICIENCY OF MUNICIPAL WASTEWATER TREATMENT USING MBBR-MBR AND SBR SYSTEMS
DOI:
https://doi.org/10.24867/19HZ01GalipiduKeywords:
Municipal wastewater, AnMBBR, AeMBR, SBR, Chlorella sorokinianaAbstract
This paper includes the study of innovative methods for municipal wastewater treatment. It is based on the performed experiment and analysis of various scientific papers by other authors and researchers. The experimentally tested systems are described and the results obtained. The first system was a combination of anaerobic moving bed biofilm reactor (AnMBBR) and aerobic membrane bioreactor (AeMBR), and the second was a combination of sequencing batch reactor (SBR) with microalgae Chlorella sorokiniana. Finally, the removal efficiency of each system was described and the systems were compared.
References
[1] Povrenović D, Knežević M. 2013. Osnove tehnologije prečišćavanja otpadnih voda. Tehničko-metalurški fakultet, Univerzitet u Beogradu, Beograd.
[2] Koraj K. 2017. Napredno biološko uklanjanje u obradi otpadne vode. Diplomski rad, Prehrambeno-biotehnološki fakultet, Sveučilište u Zagrebu, Zagreb.
[3] Abdel-Raouf N, Al-Homaidan A.A, Ibraheem I.B.M. 2012. Microalgae and wastewater treatment. Saudi Journal of Biological Sciences.
[4] Pereira I, Rangel A, Chagas B, Moura B, Urbano S, Sassi R, Camara F, Castro C. 2021. Microalgae Growth under Mixotrophic Condition Using Agro-Industrial Waste: A Review. Biotechnological Applications of Biomass. IntechOpen. 2021. 13.
[5] Marchão L, Fernandes J.R, Sampaio A, Peres J.A, Tavares P.B, Lucas M.S. 2021. Microalgae and immobilized TiO2/UV-A LEDs as a sustainable alternative for winery wastewater treatment. Water Research.
[6] Lizzul A, Lekuona-Amundarain A, Purton S, Campos L. 2018. Characterization of Chlorella sorokiniana, UTEX 1230. Biology.
[7] Sperling M. 2007. Wastewater Characteristics, Treatment and Disposal. IWA Publishing, London, UK.
[8] Zkeri E, Iliopoulou A, Katsara A, Korda A, Aloupi M, Gatidou G, Fountoulakis M.S, Stasinakis A.S. 2021. Comparing the use of a two-stage MBBR system with a methanogenic MBBR coupled with a microalgae reactor for medium-strength dairy wastewater treatment. Bioresoure Technology.
[2] Koraj K. 2017. Napredno biološko uklanjanje u obradi otpadne vode. Diplomski rad, Prehrambeno-biotehnološki fakultet, Sveučilište u Zagrebu, Zagreb.
[3] Abdel-Raouf N, Al-Homaidan A.A, Ibraheem I.B.M. 2012. Microalgae and wastewater treatment. Saudi Journal of Biological Sciences.
[4] Pereira I, Rangel A, Chagas B, Moura B, Urbano S, Sassi R, Camara F, Castro C. 2021. Microalgae Growth under Mixotrophic Condition Using Agro-Industrial Waste: A Review. Biotechnological Applications of Biomass. IntechOpen. 2021. 13.
[5] Marchão L, Fernandes J.R, Sampaio A, Peres J.A, Tavares P.B, Lucas M.S. 2021. Microalgae and immobilized TiO2/UV-A LEDs as a sustainable alternative for winery wastewater treatment. Water Research.
[6] Lizzul A, Lekuona-Amundarain A, Purton S, Campos L. 2018. Characterization of Chlorella sorokiniana, UTEX 1230. Biology.
[7] Sperling M. 2007. Wastewater Characteristics, Treatment and Disposal. IWA Publishing, London, UK.
[8] Zkeri E, Iliopoulou A, Katsara A, Korda A, Aloupi M, Gatidou G, Fountoulakis M.S, Stasinakis A.S. 2021. Comparing the use of a two-stage MBBR system with a methanogenic MBBR coupled with a microalgae reactor for medium-strength dairy wastewater treatment. Bioresoure Technology.
Downloads
Published
2022-10-05
Issue
Section
Environment and Occupational Safety Engineering
