References
- Kowal, A. L., Świderska-Bróż, M. (2009). Oczyszczanie wody. Podstawy teoretyczne i technologiczne, procesy i urządzenia. (Water treatment. Theoretical and technological basics, processes and equipment). Warszawa. Wydawnictwo Naukowe PWN.
- Sahinkaya, E, Sahin, A, Yurtsever, A, Kitis, M. (2018). Concentrate minimization and water recovery enhancement using pellet precipitator in a reverse osmosis process treating textile wastewater. Journal of Environmental Management, 222, 420–427.
- Brastad, K.S., He, Z. (2013). Water softening using microbial desalination cell technology. Desalination, 309, 32–37.
- Gallup, D.L. (2007). Treatment of geothermal waters for production of industrial, agricultural or drinking water, Geothermics, 36, 473–483.
- Koo, Ch., Mohammad, A.W., Suja, F. (2011). Recycling of oleochemical wastewater for boiler feed water using reverse osmosis membranes – A case study, Desalination, 271, 178–186.
- Song, J.H., Yeon, K.H., Cho, J., Moon, S.H. (2005). Effects of the operating parameters on the reverse osmosis-electrodeionization performance in the production of high purity water, Korean Journal of Chemical Engineering, 22, 108–114.
- Zarga, Y., Ben Boubaker, H., Ghaffour, N., Elfil, H. (2013). Study of calcium carbonate and sulfate coprecipitation, Chemical Engineering Science, 96, 33–41.
- Katz, I., Dosoretz, C.G. (2008). Desalination of domestic wastewater effluents: phosphate removal as pretreatment, Desalination, 222, 230–242.
- Comstock, S.E.H., Boyer, T.H. (2014). Combined magnetic ion exchange and cation exchange for removal of DOC and hardness, Chemical Engineering Journal, 241, 366–375.
- Soleimani, M., Kaghazchi, T. (2008). Adsorption of gold ions from industrial wastewater using activated carbon derived from hard shell of apricot stones – an agricultural waste, Bioresource Technology, 99, 5374–5383.
- Baker, R.W. (2012). Membrane technology and applications, John Wiley and Sons, Hoboken, USA.
- Bergman, R. (2007). Reverse osmosis and nanofiltration, American Water Works Association, Denver, USA.
- Bodzek, M., Konieczny, K. (2005). Wykorzystanie procesów membranowych w uzdatnianiu wody. [The application of membrane processes in water treatment] Projprzem-EKO, Szubin, Polska.
- Hillis, P. (2000) Membrane technology in water and wastewater treatment, Royal Society of Chemistry, Cambridge, UK.
- Howe, K.J. (2007). Membrane treatment for drinking water and reuse applications: a compendium of peer-reviewed papers, American Water Works Association, Denver, USA.
- Norman, N.L. (2008). Advanced Membrane Technology and Applications, John Wiley and Sons, Chichester, UK.
- PN-ISO 6059:1999. Jakość wody. Oznaczanie sumarycznej zawartości wapnia i magnezu. Metoda miareczkowa z EDTA. (Water quality. Determination of the total calcium and magnesium content. Titration method with EDTA).
- Dudziak, M., Kudlek, E. (2018). Obniżanie twardości odpływów z oczyszczalni ścieków komunalnych za pomocą filtracji membranowej. (Reducing the hardness of effluents from urban wastewater treatment plant by means of membrane filtration), Proceedings of ECOpole, 12, 149–156.
- Antony, A., Low, J.H., Gray, S., Childress, A.E., LeClech, P., Leslie, G. (2011). Scale formation and control in high pressure membrane water treatment systems: A review, Journal of Membrane Science, 383, 1–16.
- Shang, W., Sun, F., Chen, L. (2018). Nanofiltration fouling propensity caused by wastewater effluent organic matters and surface-water dissolved organic matters, Environmental Technology, 39, 1914–1925.
- Zhang, L., Wang, L., Zhang, G., Wang, X. (2009). Fouling of nanofiltration membrane by effluent organic matter: Characterization using different organic fractions in wastewater, Journal of Environmental Sciences, 21, 49–53.