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Application of New Polymer Flocculants in Industrial Wastewater Treatment

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Polymer flocculants are used in wastewater treatment processes, and the necessity and universality of their use result from changes in production technologies, also causing variability in the parameters of treated wastewater. Industrial wastewater contains a substrate that is difficult to biodegrade (BOD5/COD < 0.02), and the presence of toxic compounds makes it necessary to treat them in many stages before discharging them to the receiver or reusing. The study aimed to assess the possibility of using a new generation flocculent to support coagulation. The research was conducted on mine water originating from hard coal mines and on treated coke wastewater from the biological sewage treatment plant. The synthesis of copolymers of acrylamide with acrylic acid and acrylamide with acrylonitrile allowed the extraction of effective products – flocculents with specific properties, supporting the coagulation process and reducing the parameters of contaminants in treated industrial wastewater. Compared to commercial polyelectrolyte Praestol, copolymers of acrylamide with acrylic acid removed turbidity more effectively than acrylamide-acrylonitrile copolymers.
Rocznik
Tom
Strony
383--388
Opis fizyczny
Bibliogr. 25 poz., tab.
Twórcy
  • Department of Sanitary Networks and Installations, Faculty of Infrastructure and Environment, Czestochowa University of Technology, Poland
  • Department of Marketing and Communication, Faculty of Management, Czestochowa University of Technology, Poland
Bibliografia
  • Al-Malack, M.H., Nabil, S., Abuzaid, El-Mubarak, A.H. (1999). Coagulation of polymeric wastewater discharged by a chemical factory. Water Research, 33(2), 521-529.
  • Anielak, A. (2000). Chemical and physicochemical treatment of wastewater. Warsaw: WN PWN. (in Polish)
  • Antonova, T.V., Vershinin, V.I., Dedkov, I., Yu, M. (2005). Use of triphenylmethane dyes for the spectrophotometric determination of polymer flocculants in aqueous solutions. Journal of Analytical Chemistry, 60(3), 247-251.
  • Bajdur, W., Henclik, A., Grabowska, M., Scurek, R., Sikorova, K. (2015). Use of LCA for assessment of environment al impast of newly synthesised polymeric flocculants. Przemysł Chemiczny, 96(12), 2561-2566.
  • Bajdur, W., (2011). Synthetic eco-polyelectrolytes to reduce pollution charges in wastewater and industrial waters. WN PAN. (in Polish)
  • Bajdur, W., Sułkowski, W., (2001). Application of synthesised polyacrylamides as flocculants in the process of wastewater treatment. Zeszyty Naukowe Politechniki Śląskiej, 146, 239-242.
  • Bajdur, W., (2000). Flocculation properties of sulfone and amine derivatives of polystyrene waste and phenol-formaldehyde resins. PhD thesis, 2000, Silesian University, Katowice, Poland (in Polish)
  • Bartkiewicz, B. (2010). Industrial wastewater treatment. Warsaw: WN PWN. (in Polish)
  • Grachek, V.I,, Shunkevich, A.A., Popova, O.P., Radkevich, S.E., (2001). Treatment of the wastewater of finishing-and dyeing production using polyelectrolyte flocculants based on nitron fiber scrap. Russian Journal of Applied Chemistry, 74(9), 1525-1528.
  • Hermanowicz, W. (1999). Physico-chemical testing of water and wastewater. Warsaw: WN Arkady. (in Polish)
  • Kolya, H., Kang, Ch.W. (2023). Bio-based polymeric flocculants and adsorbents for wastewater treatment. Sustainability, 5(12), 9844; https://doi.org/10.3390/su15129844
  • Kozak, J., Włodarczyk-Makuła, M., Popenda, A. (2021). Impact of aerobic stabilisation of sewage sludge on PAHs concentration in reject waters. Journal of Ecological Engineering, 22, 4, 27-35. https://doi.org/10.12911/22998993/134198
  • Lipsa, M., Kakoli, K.P., Somesh, J. (2021). Coke wastewater treatment methods: Mini review. Journal of the Indian Chemical Society, 98, 1001-1033. https://doi.org/10.1016/j.jics.2021.100133
  • Mielczarek, K., Bohdziewicz, J., Kwarciak-Kozłowska, A. (2011). Comparison of the efficiency of purification of post-process coke oven waters with the use of coagulation processes and deepened oxidation. Inżynieria Ekologiczna, 24, 184-194.
  • Novakov, I.A., Navrotskii, A.V., Starovoitova, Y.M., Orlyanskii, M.V., Drabina, S.S., Shulevich, Y.V., Navrotskii, V.A. (2003). Synthesis and Flocculating Power of Pyridinium Polyelectrolytes, Macromolecular Chemistry and Polymeric Materiale. Russian Journal of Applied Chemistry, 76, 1167-1173.
  • Olczak, Cz., Ligus, G., Miodoński, J.M. (2013). Modern methods of treatment of phenolic coke oven wastewater. Chemik, 67(1), 979-984.
  • Qian, J.W., Xiang, X.J., Yang, W.Y., Wang, M., Zheng, B.Q. (2004). Flocculation performance of different polyacryloamide and the relation between optimal dose and critical concentration. European Polymer Journal, 40, 1699-1704.
  • Regulation of the Minister of Maritime Economy and Inland Navigation of 12 July 2019 on substances particularly harmful to the aquatic environment and conditions to be met when introducing wastewater into waters or into the ground, as well as when discharging rainwater or meltwater into waters or water facilities, item 1311 (in Polish)
  • Shulevich, Y.V., Navrotskii, A.V., Kovaleva, O.Y., Navrotskii, V.A., Novakov, I.A. (2005). Synthesis of polymer-colloid complexes by polymerisation of ionic monomers in a surfactant solution. Russian Journal of Applied Chemistry, 78(7), 1185-1189.
  • Smol, M., Włodarczyk-Makuła, M. (2015). Treatment of industrial wastewater in accordance to 'zero waste' strategy. Acta Innovations, 16, 5‐11.
  • Turcn, M., Barsan N., Mosnegutu, E., Dascalu, M., Chiţimus, D., Radu, C. (2016). Application of the flocculation process in the industrial wastewater treatment. Environmental Engineering and Management Journal, 15(3), 521-526.
  • Wildermuth, E., Stark, H., Friedrich, G., Ebenhöch, F.L., Kühborth, B. Silver, J. Rituper, R. (2000). Iron Compounds. Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH.
  • Wiśniowska, E., Moraczewska-Majkut, K., Nocoń, W. (2020). Selected unit processes in microplastics removal from water and wastewater. Desalination and Water Treatment, 199, 512-520.
  • Włodarczyk-Makuła, M., Wiśniowska, E., Popenda, A. (2018). Monitoring of organic micropollutants in effluents as crucial tool in sustainable development. Problems of Sustainable Development, 13(2), 191-198.
  • Włodarczyk-Makuła, M., Popenda, A. (2015). Quantative changes of PAHs in water and wastewater during treatment processes, in: Forsgren AJ (ed) Wastewater treatment, Occurrence and fate of Polycyclic Aromatic Hydrocarbons (PAHs), CRC press, Taylor & Francis Group, 47-70.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ebd0c7bb-6dec-4edf-a609-81b8739d221e
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