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Warianty tytułu
The Study on the Effectiveness of the Mycoestrogens Removal from Water via Integrated Sorption-Photocatalysis-Nanofiltration System
Języki publikacji
Abstrakty
The efficiency of mycoestrogens removal by means of integrated sorption-photocatalysis-nanofiltration system was evaluated. The hydraulic capacity of membranes was also investigated. The simulated solution based on tap water with the addition of humic acids as well as surface water were treated. Zearalenone and α-zearalenol were added to both treated waters in the amount of 500 µg/dm3. The sorption process with the use of powdered activated carbon was carried out simultaneously with photocatalysis in the medium-pressure reactor equipped with immersed lamp (the time of the treatment was established at 5 min). Next, after separation of carbon and photocatalyst particles the water was treated via nanofiltration. The obtained results were compared with ones derived for single stage treatments (i.e. photocatalysis, nanofiltration) and integrated systems of photocatalysis-nanofiltration and sorption-photocatalysis. The removal rate of mycoestrogens exceeded 82% (simulated water) for 3-stage integrated system and was much higher than for photocatalysis performed as a single stage and integrated with sorption. It was also found that the addition of activated carbon improved the hydraulic capacity of membranes. The relative permeability of nanofiltration membranes was higher for the system with photocatalysis enhanced with sorption. Additionally, the polishing of water via nanofiltration enabled the total removal of high-molecular weight organic compounds (UV absorbance values) as well as the decrease of inorganic compounds concentration (conductivity measurements).
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
1929--1936
Opis fizyczny
Bibliogr. 14 poz., tab.
Twórcy
autor
- Politechnika Śląska, Gliwice
Bibliografia
- 1. Adamski W., Majewska-Nowak K.: Zastosowanie reaktorów wielofunkcyjnych do oczyszczania wody. Ochrona Środowiska. Nr 1 Tom 32, 3–8 (2010).
- 2. Kabsch-Korbutowicz M., Urbanowska A.: Water treatment in integrated process using ceramic membrane. Polish Journal of Environmental Studies. Nr 4 Tom 19, 731–737 (2010).
- 3. Lee K.-W., Choo K.-H., Choi S.-J., Yamamoto K.: Development of an integrated iron oxide adsorption/membrane separation system for water treatment. Water Science and Technology: Water Supply. Nr 5–6 Tom 2, 293–300 (2002).
- 4. Glucina K., Alvarez A., Laîné J.M.: Assessment of an integrated membrane system for surface water treatment. Desalination. Nr 1–3 Tom 132, 73–82 (2010).
- 5. Dudziak M.: Usuwanie mykoestrogenów w procesie koagulacji, sorpcji i nanofiltracji – procesy pojedyncze i układy zintegrowane. Nauka Przyroda Technologie. Nr 4 Tom 5, 1–7 (2011).
- 6. Dudziak M.: Fotokatalityczne utlenianie zearalenonu oraz wysokocząsteczkowych substancji organicznych w roztworach wodnych. Instal. Nr 5, 24–26 (2011).
- 7. Dudziak M.: Usuwanie mykoestrogenów z roztworów wodnych w zintegrowanym procesie fotokataliza-mikrofiltracja-nanofiltracja. Ochrona Środowiska. Nr 1 Tom 34, 29–32 (2012).
- 8. Dudziak M.: Rejection of mycoestrogens in nanofiltration – the impact of solute, membrane properties and operating system. Environmental Protection Engineering. Nr 2 Tom 38, 5–17 (2012).
- 9. Kabsch-Korbutowicz M., Urbanowska A., Majewska-Nowak K., Kawiecka-Skowron J.: Usuwanie substancji organicznych z roztworów wodnych z wykorzystaniem ceramicznych membran ultrafiltracyjnych. Rocznik Ochrona Środowiska (Annual Set The Environment Protection), 12, 467–478 (2011).
- 10. Kabsch-Korbutowicz M., Urbanowska A.: MIEX®DOC process as a useful water pretreatment method prior to filtration on ceramic membranes. Rocznik Ochrona Środowiska (Annual Set The Environment Protection), 11, 595–605 (2009).
- 11. Kabsch-Korbutowicz M.: Ultrafiltration as a method of natural organic matter separation from water Rocznik Ochrona Środowiska (Annual Set The Environment Protection), 10, 17–27 (2008).
- 12. Dudziak M., Bodzek M.: A study of selected phytoestrogens retention by reverse osmosis and nanofiltration membranes - the role of fouling and scaling. Chemical Papers Nr 2 Tom 64, 139–146 (2010).
- 13. Lim T.-T., Yap P.-S., Srinivasan M., Anthony G.: TiO2/AC composites for synergistic adsorption - photocatalysis processes: present challenges and further developments for water treatment and reclamation. Critical Reviews in Environmental Science and Technology, Nr 13 Tom 41, 1173–1230 (2011).
- 14. Li W., Liu S.: Bifunctional activated carbon with dual photocatalysis and adsorption capabilities for efficient phenol removal. Adsorption. Nr 2 Tom 18, 67–74
Typ dokumentu
Bibliografia
Identyfikator YADDA
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