Elimination of Bisphenol A from Wastewater through Membrane Filtration Processes

Dudziak, M.; Kudlek, E.; Łaskawiec, E.; Felis, E.; Kowalska, K.; Garbaczewski, L.

doi:10.12911/22998993/79413

Artykuł - szczegóły

Tytuł artykułu

Elimination of Bisphenol A from Wastewater through Membrane Filtration Processes

Autorzy

Dudziak M. , Kudlek E. , Łaskawiec E. , Felis E. , Kowalska K. , Garbaczewski L.

Treść / Zawartość

Pełne teksty:

8_Dudziak_Kudlek_Laskawiec_et al._Elimination_69-74.pdf

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Identyfikatory

DOI

10.12911/22998993/79413

Warianty tytułu

Języki publikacji

Abstrakty

New priorities for the environment have resulted in a reassessment of modern technology for treatment of urban wastewater. Urban wastewater treatment mainly involves the elimination or reduction of anthropogenic organic micropollutants in the aquatic environment. In this paper, the effectiveness of bisphenol A elimination from wastewater, after biological treatment, through a complex ultrafiltration/reverse osmosis purification process was evaluated. The effectiveness of the wastewater treatment process in the tested system was also evaluated with a number of other physical and chemical analyses for pH, turbidity, colour, absorbance, TOC, phenol index, conductivity and the concentration of selected heavy metals. Within this study, the change in the hydraulic performance of the membranes was also investigated. The effectiveness of the reduction of bisphenol A concentrations during the process of ultrafiltration was small, due to the significant difference between the size of the pores of the membrane and the size of eliminated micropollutants. In the process of reverse osmosis, the wastewater treatment system reported that the concentration of bisphenol A was reduced by 68%. In the tested treatment system, the ultrafiltration/reverse osmosis completely removed colour, lead and chromium. Other contaminants were eliminated by more than 31%. In both membrane processes, there was evidence that the membrane pores were blocked, but this occurred to a greater extent during the process of reverse osmosis.

Słowa kluczowe

wastewater treatment bisphenol A ultrafiltration reverse osmosis complex purification process

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2018

Tom

Vol. 19, nr 1

Strony

69--74

Opis fizyczny

Bibliogr. 8 poz., rys., tab.

Twórcy

autor

Dudziak M.

mariusz.dudziak@polsl.pl

Silesian University of Technology Institute of Water and Wastewater Engineering Konarskiego 18, 44-100, Gliwice, Poland

autor

Kudlek E.

Silesian University of Technology Institute of Water and Wastewater Engineering Konarskiego 18, 44-100, Gliwice, Poland

autor

Łaskawiec E.

Silesian University of Technology Institute of Water and Wastewater Engineering Konarskiego 18, 44-100, Gliwice, Poland

autor

Felis E.

Silesian University of Technology Environmental Biotechnology Department Akademicka 2, 44-100 Gliwice, Poland

autor

Kowalska K.

Silesian University of Technology Environmental Biotechnology Department Akademicka 2, 44-100 Gliwice, Poland

autor

Garbaczewski L.

Talmex sp. z o.o. Chopina 94, 43-600 Jaworzno, Poland

Bibliografia

1. Anderson, J.C., Joudan, S., Shoichet, E., (...), Hanson, M.L., Wong, C.S., 2015, Reducing nutrients, organic micropollutants, antibiotic resistance, and toxicity in rural wastewater effluent with subsurface filtration treatment technology. Ecological Engineering, 84(11), 375-385.
2. Barbosa, M.O., Moreira, N.F.F., Ribeiro, A.R., Pereira, M.F.R., Silva A.M.T., 2016. Occurrence and removal of organic micropollutants: an overview of the watch list of EU decision 2015/495. Water Research, 94(5), 257-279.
3. Deblonde, T., Cossu-Leguille, C., Hartemann, P., 2011, Emerging pollutants in wastewater: a review of the literature. International Journal of Hygiene and Environmental Health, 214(11), 442-448.
4. Giannakis, S., Gamarra Vives, F.A., Grandjean, D., (...), De Alencastro, L.F., Pulgarin, C., 2015, Effect of advanced oxidation processes on the micropollutants and the effluent organic matter contained in municipal wastewater previously treated by three different secondary methods, Water Research, 84(11), 295-306.
5. Grandclément, C., Seyssiecq, I., Piram, A., Wong-Wah-Chung, P., Vanot, G., Tiliacos, N., Roche, N., Doumenq, P., 2017. From the conventional biological wastewater treatment to hybrid processes, the evaluation of organic micropollutant removal: A review. Water Research, 111(3), 297-317.
6. Kim, M.-K., Zoh, K.-D., 2016. Occurrence and removals of micropollutants in water environment. Environmental Engineering Research, 21(4), 319-332.
7. Tang, F., Hu, H.-Y., Sun, L.-J., Sun, Y.-X., Shi, N., Crittenden, J.C., 2016. Fouling characteristics of reverse osmosis membranes at different positions of a full-scale plant for municipal wastewater reclamation. Water Research, 90(3), 329-336.
8. Yu, T., Meng, L., Zhao, Q.-B., Shi, Y., Hu, H.-Y., Lu, Y., 2017. Effects of chemical cleaning on RO membrane inorganic, organic and microbial foulant removal in a full-scale plant for municipal wastewater reclamation. Water Research, 113(4), 1-10.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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