References

1. I.J. Vreeburg, J.B. Boxall, Discolouration in potable water distribution systems: a review, Water Res., 41 (2007) 519–529.
2. S. Srinivasan, G.W. Harrington, Biostability analysis for drinking water distribution system, Water Res., 41 (2007) 2127–2138.
3. C. Chu, C. Lu, C. Lee, Effects of inorganic nutrients on the regrowth of heterotrophic bacteria in drinking water distribution systems, J. Environ. Manage., 74 (2005) 255–263.
4. M. Polanska, K. Huysmanb, Ch. Van Keera, Investigation of assimilable organic carbon (AOC) in flemish drinking water, Water Res., 39 (2005) 2259–2266.
5. D. Van der Kooij, Biological stability: a multidimensional quality aspect of treated water, Water Air Soil Pollut., 123 (2000) 25–34.
6. V. Ondrejka Harbuľáková, A. Eštoková, N. Števulová, A. Luptaková, Different aggressive media influence related to selected characteristics of concrete composites investigation, Int. J. Renew. Energy Environ. Eng., 5 (2014) 1–6.
7. I.C. Escobar, A.A. Randall, Assimilable organic carbon (AOC) and biodegradable dissolved organic carbon (BDOC): complementary measurements, Water Res., 35 (2001) 4444–4454.
8. X. Liu, J. Wang, T. Liu, W. Kong, X. He, Y. Jin, B. Zhang, Effects of assimilable organic carbon and free chlorine on bacterial growth in drinking water, PLoS One, 6 (2010) e0128825.
9. Ch. J. Volk, M.W. LeChevallier, Assessing biodegradable organic matter, J. AWWA, 92 (2000) 64–76.
10. J.H. Hu, Z.S. Wang, W.J. Ng, S.L. Ong, The effect of water treatment processes on the biological stability of potable water, Water Res., 33 (1999) 2587–2592.
11. K. Lautenschlager, N. Boon, Y. Wang, T. Egli, F. Hammes, Overnight stagnation of drinking water in household taps induces microbial growth and changes in community composition, Water Res., 44 (2010) 4868–4877.
12. V. Ondrejka Harbulakova, A. Estokova, M. Kovalcikova, Correlation analysis between different types of corrosion of concrete containing sulfate resisting cement, Environments, 4 (2017) 1–14.
13. F. Hammes, C. Berger, O. Köster, T. Egli, Assessing biological stability of drinking water without disinfectant residuals in a full-scale water supply system, J. Water Supply Res. Technol., 59 (2010) 31–40.
14. P.S. Ross, F. Hammes, M. Dignum, A. Magic-Knezev, B. Hambsch, L.C. Rietveld, A comparative study of three different assimilable organic carbon (AOC) methods: results of a round-robin test, Water Sci. Technol. Water Supply, 13 (2013) 1024–1033.
15. W. Liu, H. Wu, Z. Wang, S.L. Ong, J.Y. Hu, W.J. Ng, Investigation of assimilable organic carbon (AOC) and regrowth in drinking water distribution system, Water Res., 36 (2002) 891–898.
16. P. Thayanukul, F. Kurisu, I. Kasuga, H. Furumai, Evaluation of microbial regrowth potential by assimilable organic carbon in various reclaimed water and distribution system, Water Res., 47 (2013) 225–232.
17. Y. Ohkouchi, B.T. Ly, S. Ishikawa, Y. Aoki, S. Echigo, S. Itoh, A survey on levels and seasonal changes of assimilable organic carbon (AOC) and its precursors in drinking water, Environ. Technol., 32 (2011) 1605–1613.
18. P. Niquette, P. Servais, R. Savoir, Bacterial dynamics in the drinking water distribution system of Brussels, Water Res., 55 (2001) 675–682.
19. D. Papciak, J. Kaleta, A. Puszkarewicz, B. Tchórzewska-Cieślak, The use of biofiltration process to remove organic matter from groundwater, J. Ecol. Eng., 17 (2016) 119–124.
20. J. Zhang, W.Y. Li, F. Wang, L. Qian, C. Xu, Y. Liu, W. Qi, Exploring the biological stability situation of a full scale water distribution system in south China by three biological stability, evaluation methods, Chemosphere, 161 (2016) 43–52.
21. I. Zimoch, E. Szymura, K. Moraczewska-Majkut, Changes of trihalomethanes (THMs) concentration in water distribution system, Desal. Wat. Treat., 3 (2015) 1399–1408.
22. T.M. Traczewska, M. Sitarska, I. Biedroń, Ecological and Technical Aspects of Biofilm Formation in Water, The Publishing House of Wrocław University of Science and Technology, Wrocław, 2014 (in Polish).
23. L.A. Kaplan, J.D. Newbold, Measurement of streamwater biodegradable dissolved organic carbon with a plug - flow bioreactor, Water Res., 12 (1995) 2696–2706.
24. A. Nowacka, M. Wlodarczyk-Makula, B. Tchorzewska-Cieslak, J. Rak, The ability to remove the priority PAHs from water during coagulation process including risk assessment, Desal. Wat. Treat., 3 (2016) 1297–1309.
25. M. Smol, M. Wlodarczyk-Makula, B. Skowron-Grabowska, PAHs removal from municipal landfill leachate using an integrated membrane system in aspect of legal regulations, Desal. Wat. Treat., 69 (2017) 335–343.
26. B. Tchorzewska-Cieslak, K. Boryczko, M. Eid, Failure Scenarios in Water Supply System by Means of Fault Tree Analysis, Advances in Safety, Reliability and Risk Management - Proc. European Safety and Reliability Conference, ESREL, 2012, pp. 2492–2499.
27. M. Wolska, Removal of biogenic substances in water purification technology intended for human consumption, The Publishing House of Wrocław University of Science and Technology, Wrocław, 2015 (in Polish).
28. D. Papciak, Biofiltration of groundwaters in chalcedony beds, Instal, 344 (2013) 49–54.
29. D. Papciak, J. Kaleta, A. Puszkarewicz, Removal of ammonia nitrogen from groundwater on chalcedony deposits in twostage biofiltration process, Annual Set Environ. Prot., 15 (2013) 1352–1366.
30. D. Papciak, Effect of Nitrification-Filter Packing Material on the Time to Reach Its Operation Capacity, Environmental Engineering, Taylor & Francis Group, London, UK, 2007, pp. 125–132.
31. P. Piriou, S. Dukan, L. Kiene, Modeling bacteriological water quality in drinking water distribution systems, Water Sci. Technol., 38 (1998) 299–307.
32. O.M. Zacheus, E.K. Liavanainen, T.K. Nissinen, M.J. Lehtola, Bacterial biofilm formation on polyvinyl chloride, polyethylene and stainless steel exposed to ozonated water, Water Res., 34 (2000) 63–70.
33. M.J. Lehtola, I.T. Miettinena, M.M. Keinänena, T.K. Kekkia, O. Laineb, A. Hirvonenc, T. Vartiainenb, P.J. Martikainen, Microbiology, chemistry and biofilm development in a pilot drinking water distribution system with copper and plastic pipe, Water Res., 38 (2004) 3769.
34. M.J. Lethola, I.T. Miettinen, T. Lampola, A. Hirvonen, T. Vartiainen, P.J. Martikainen, Pipeline materials modify the effectiveness of disinfectants in drinking water distribution systems, Water Res., 39 (2005) 1962–1971.
35. A. Pietrzyk, D. Papciak, Organic matter in natural water - forms and method for determining, JCEEA, 63 (2016) 241–252 (in Polish).
36. L. Kiedryńska, Water treatment involving granular activated carbon filters; problem of bacterial colonization, Ochr. Srod., 26 (2004) 39–42 (in Polish).
37. B. Tchorzewska-Cieslak, Estimating the acceptance of bearing the cost of the risks associated with the management of water supply system, Ochr. Srod., 29 (2007) 69–72 (in Polish).
38. B. Tchorzewska-Cieslak, J. Rak, Method of Identification of Operational States of Water Supply System, Advances in Safety, Reliability and Risk Management - Proc. 3rd Congress of Environmental Engineering, 2010, pp. 521–526.
39. M. Iwanek, D. Kowalski, M. Kwietniewski, Model Studies of a Water Outflow from an Underground Pipeline Upon its Failure, Ochr. Srod., 7 (2015) 13–17.