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European IPPC Bureau – Institute for Prospective Technological Studies Sustainability in Industry, Energy and Transport, 2017. Best Available Techniques (BAT). Reference document on best available techniques (BAT) for non-ferrous metals industries. Industrial Emissions Directive 2010/75/EU. Integrated Pollution Prevention and control.2017Best Available Techniques (BAT). Reference document on best available techniques (BAT) for non-ferrous metals industries. Industrial Emissions Directive 2010/75/EU. Integrated Pollution Prevention and controlSearch in Google Scholar
Holzer, M. (2005). Przewodnik w zakresie najlepszych dostępnych technik dla przemysłu odlewniczego (A guide on the best available techniques for the foundry industry). Warszawa: Ministerstwo Środowiska.HolzerM.2005WarszawaMinisterstwo ŚrodowiskaSearch in Google Scholar
Barbusiński, K. (2004). Intensyfikacja procesu oczyszczania ścieków i stabilizacji osadów nadmiernych z wykorzystaniem odczynnika Fentona (Intensification of the wastewater treatment process and stabilization of excessive sewage sludge using Fenton’s reagent). Gliwice: Wydawnictwo Politechniki Śląskiej.BarbusińskiK.2004GliwiceWydawnictwo Politechniki ŚląskiejSearch in Google Scholar
Barbusiński, K. (2013). Zaawansowane utlenianie w procesach oczyszczania wybranych ścieków prze-mysłowych (Advanced oxidation in the treatment processes of selected industrial wastewater). Gliwice: Wydawnictwo Politechniki Śląskiej.BarbusińskiK.2013GliwiceWydawnictwo Politechniki ŚląskiejSearch in Google Scholar
Kozak, J. Włodarczyk-Makuła, M. (2018). Degradacja małocząsteczkowych WWA w modyfikowanym procesie foto-Fentona (Degradation of low molecular weight PAHs in the modified Fenton process), Rocznik Ochrona Środowiska, 20(2), 1418–1429.KozakJ.Włodarczyk-MakułaM.2018Degradacja małocząsteczkowych WWA w modyfikowanym procesie foto-Fentona (Degradation of low molecular weight PAHs in the modified Fenton process)20214181429Search in Google Scholar
Babuponnusamia, A, Muthukumar, K. (2014). A review on Fenton and improvements to the Fenton process for wastewater treatment, Journal of Environmental Chemical Engineering, 2(1), 557–572.BabuponnusamiaAMuthukumarK.2014A review on Fenton and improvements to the Fenton process for wastewater treatment2155757210.1016/j.jece.2013.10.011Search in Google Scholar
Bautista, P., Mohedano, A.F., Casas, J.A., Zazo, J.A., Rodriguez, J.J. (2008). An overview of the application of Fenton oxidation to industrial wastewaters treatment. Journal of Chemical Technology and Biotechnology, 83(10), 1323–1338.BautistaP.MohedanoA.F.CasasJ.A.ZazoJ.A.RodriguezJ.J.2008An overview of the application of Fenton oxidation to industrial wastewaters treatment83101323133810.1002/jctb.1988Search in Google Scholar
Gogate, P.R., Pandit, A.B. (2004). A review of imperative technologies for wastewater treatment I: oxidation technologies at ambient conditions. Advances in Environmental Research, 8(3-4), 501–551.GogateP.R.PanditA.B.2004A review of imperative technologies for wastewater treatment I: oxidation technologies at ambient conditions83-450155110.1016/S1093-0191(03)00032-7Search in Google Scholar
Matavos-Aramyan, S., Moussavi, M. (2017). Advances in Fenton and Fenton Based Oxidation Processes for industrial effluent contaminants control – a review. International Journal of Environmental Sciences & Natural Resources, 2(4), 1–18.Matavos-AramyanS.MoussaviM.2017Advances in Fenton and Fenton Based Oxidation Processes for industrial effluent contaminants control – a review24118Search in Google Scholar
Pawar, V., Gawande, S. (2015). An overview of the Fenton process for industrial wastewater. IOSR Journal of Mechanical and Civil Engineering, 2, 127–136.PawarV.GawandeS.2015An overview of the Fenton process for industrial wastewater2127136Search in Google Scholar
Koppenol, W. (1993). The centennial of the Fenton reaction. Free Radical Biology and Medicine, 15(6), 645–651.KoppenolW.1993The centennial of the Fenton reaction15664565110.1016/0891-5849(93)90168-TSearch in Google Scholar
Długosz, J. (2014). Fenton method and its modifications in the treatment leachate – for review, Archives of Waste Management and Environmental Protection, 16(4), 33–42.DługoszJ.2014Fenton method and its modifications in the treatment leachate – for review1643342Search in Google Scholar
Koc-Jurczyk, J. (2012). Efektywność oczyszczania koncentratu odcieków po odwróconej osmozie odczynnikiem Fentona (The efficiency of reverse osmosis landfill leachate concentrate treatment by Fenton reagent), Inżynieria Ekologiczna, 31, 72–79.Koc-JurczykJ.2012Efektywność oczyszczania koncentratu odcieków po odwróconej osmozie odczynnikiem Fentona (The efficiency of reverse osmosis landfill leachate concentrate treatment by Fenton reagent)317279Search in Google Scholar
Barbusiński, K. (2004). Zastosowanie odczynnika Fentona do oczyszczania stężonych ścieków z produkcji bezwodnika kwasu maleinowego (The use of Fenton's reagent for the treatment of maleic anhydride process concentrated wastewaters). Przemysł chemiczny, 83(6), 285–290.BarbusińskiK.2004Zastosowanie odczynnika Fentona do oczyszczania stężonych ścieków z produkcji bezwodnika kwasu maleinowego (The use of Fenton's reagent for the treatment of maleic anhydride process concentrated wastewaters)836285290Search in Google Scholar
Kuo, W. (1992). Decolorizing dye wastewater with Fenton’s reagent, Water Research, 26(7), 881–886.KuoW.1992Decolorizing dye wastewater with Fenton’s reagent26788188610.1016/0043-1354(92)90192-7Search in Google Scholar
Lin, S.H., Lin, C.M., Leu, H.G. (1999). Operating characteristics and kinetic studies of surfactant waste-water treatment by Fenton oxidation. Water Research, 33(7), 1735–1741.LinS.H.LinC.M.LeuH.G.1999Operating characteristics and kinetic studies of surfactant waste-water treatment by Fenton oxidation3371735174110.1016/S0043-1354(98)00403-5Search in Google Scholar
Dawczak, P., Dudziak, M. (2019). Evaluation of the effectiveness of the coagulation process in the treatment of wastewater from the foundry industry. Journal of Ecological Engineering. 20(6), 174–176.DawczakP.DudziakM.2019Evaluation of the effectiveness of the coagulation process in the treatment of wastewater from the foundry industry20617417610.12911/22998993/108634Search in Google Scholar