Procena ekološkog rizika usled prisustva benzofenona-4 u otpadnim vodama
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Jul 13, 2021
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Kozmetički preparati čija je namena zaštita od Sunčevog zračenja sadrže ultraljubičaste (UV) filtere. Svakodnevna upotreba UV filtera benzofenonskog tipa dovela je do indirektnog unosa benzofenona-4 (BP-4) u životnu sredinu. Postrojenja za tretman otpadnih voda pokazala su se kao neefikasna za uklanjanje derivata benzofenona, stoga su klasifikovana kao glavni izvor ove grupe zagađujućih materija u rečnoj vodi. Nivo ekološkog rizika usled prisustva BP-4 u otpadnoj vodi procenjen je kao umeren do visok, pri čemu prilikom razmatranja ekološkog rizika usled ispuštanja otpadne vode u vodoprijemnik treba uzeti u obzir faktor razblaženja.
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Kako citirati
LUKIĆ, Jelena et al.
Procena ekološkog rizika usled prisustva benzofenona-4 u otpadnim vodama.
Zbornik Međunarodnog kongresa o procesnoj industriji – Procesing, [S.l.], v. 34, n. 1, p. 119-122, july 2021.
Dostupno na: <https://izdanja.smeits.rs/index.php/ptk/article/view/6576>. Datum pristupa: 27 sep. 2023
doi: https://doi.org/10.24094/ptk.021.34.1.119.
Sekcija
Procesne tehnologije
Reference
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[2] M. M. P. Tsui, H. W. Leung, P. K. S. Lam, and M. B. Murphy, “Seasonal occurrence, removal efficiencies and preliminary risk assessment of multiple classes of organic UV filters in wastewater treatment plants,” Water Res., vol. 53, no. i, pp. 58–67, 2014.
[3] E. Paredes, S. Perez, R. Rodil, J. B. Quintana, and R. Beiras, “Ecotoxicological evaluation of four UV filters using marine organisms from different trophic levels Isochrysis galbana, Mytilus galloprovincialis, Paracentrotus lividus, and Siriella armata,” Chemosphere, vol. 104, pp. 44–50, 2014.
[4] P. Gago-ferrero, M. S. Díaz-cruz, and D. Barceló, “Occurrence of multiclass UV filters in treated sewage sludge from wastewater treatment plants,” Chemosphere, vol. 84, no. 8, pp. 1158–1165, 2011.
[5] A. Wick, G. Fink, and T. A. Ternes, “Comparison of electrospray ionization and atmospheric pressure chemical ionization for multi-residue analysis of biocides, UV-filters and benzothiazoles in aqueous matrices and activated sludge by liquid chromatography-tandem mass spectrometry,” J. Chromatogr. A, vol. 1217, no. 14, pp. 2088–2103, 2010.
[6] B. Kasprzyk-hordern, R. M. Dinsdale, and A. J. Guwy, “The removal of pharmaceuticals , personal care products , endocrine disruptors and illicit drugs during wastewater treatment and its impact on the quality of receiving waters,” Water Res., vol. 43, no. 2, pp. 363–380, 2009.
[7] M. Palmiotto, S. Castiglioni, E. Zuccato, A. Manenti, F. Riva, and E. Davoli, “Personal care products in surface , ground and wastewater of a complex aquifer system , a potential planning tool for contemporary urban settings,” J. Environ. Manage., vol. 214, pp. 76–85, 2018.
[8] S. Ramos, V. Homem, A. Alves, and L. Santos, “A review of organic UV-filters in wastewater treatment plants,” Environ. Int., vol. 86, pp. 24–44, 2016.
[9] N. Veljković, “Životna sredina u Srbiji 2004 - 2019.,” 2019.
[10] M. hong Wu et al., “Benzophenone-type UV filters in surface waters: An assessment of profiles and ecological risks in Shanghai, China,” Ecotoxicol. Environ. Saf., vol. 141, no. March, pp. 235–241, 2017.
[11] M. hong Wu et al., “Pollution patterns and underlying relationships of benzophenone-type UV-filters in wastewater treatment plants and their receiving surface water,” Ecotoxicol. Environ. Saf., vol. 152, no. February, pp. 98–103, 2018
[2] M. M. P. Tsui, H. W. Leung, P. K. S. Lam, and M. B. Murphy, “Seasonal occurrence, removal efficiencies and preliminary risk assessment of multiple classes of organic UV filters in wastewater treatment plants,” Water Res., vol. 53, no. i, pp. 58–67, 2014.
[3] E. Paredes, S. Perez, R. Rodil, J. B. Quintana, and R. Beiras, “Ecotoxicological evaluation of four UV filters using marine organisms from different trophic levels Isochrysis galbana, Mytilus galloprovincialis, Paracentrotus lividus, and Siriella armata,” Chemosphere, vol. 104, pp. 44–50, 2014.
[4] P. Gago-ferrero, M. S. Díaz-cruz, and D. Barceló, “Occurrence of multiclass UV filters in treated sewage sludge from wastewater treatment plants,” Chemosphere, vol. 84, no. 8, pp. 1158–1165, 2011.
[5] A. Wick, G. Fink, and T. A. Ternes, “Comparison of electrospray ionization and atmospheric pressure chemical ionization for multi-residue analysis of biocides, UV-filters and benzothiazoles in aqueous matrices and activated sludge by liquid chromatography-tandem mass spectrometry,” J. Chromatogr. A, vol. 1217, no. 14, pp. 2088–2103, 2010.
[6] B. Kasprzyk-hordern, R. M. Dinsdale, and A. J. Guwy, “The removal of pharmaceuticals , personal care products , endocrine disruptors and illicit drugs during wastewater treatment and its impact on the quality of receiving waters,” Water Res., vol. 43, no. 2, pp. 363–380, 2009.
[7] M. Palmiotto, S. Castiglioni, E. Zuccato, A. Manenti, F. Riva, and E. Davoli, “Personal care products in surface , ground and wastewater of a complex aquifer system , a potential planning tool for contemporary urban settings,” J. Environ. Manage., vol. 214, pp. 76–85, 2018.
[8] S. Ramos, V. Homem, A. Alves, and L. Santos, “A review of organic UV-filters in wastewater treatment plants,” Environ. Int., vol. 86, pp. 24–44, 2016.
[9] N. Veljković, “Životna sredina u Srbiji 2004 - 2019.,” 2019.
[10] M. hong Wu et al., “Benzophenone-type UV filters in surface waters: An assessment of profiles and ecological risks in Shanghai, China,” Ecotoxicol. Environ. Saf., vol. 141, no. March, pp. 235–241, 2017.
[11] M. hong Wu et al., “Pollution patterns and underlying relationships of benzophenone-type UV-filters in wastewater treatment plants and their receiving surface water,” Ecotoxicol. Environ. Saf., vol. 152, no. February, pp. 98–103, 2018