References

  1. C. Chen, X.J. Zhang, W.J. He, W. Lu, H.D. Han, Comparison of seven kinds of drinking water treatment processes to enhance organic material removal: A pilot test, Sci. Total Environ., 382 (2007) 93–102.
  2. C. Liu, Y.K. Sun, D.Y. Wang, Z.H. Sun, M. Chen, Z. Zhou, W. Chen, Performance and mechanism of low-frequency ultrasound to regenerate the biological activated carbon, Ultrason. Sonochem., 34 (2017) 142–153.
  3. Y.J. Zhang, P.F. Li, L.L. Zhou, Study on the release of HPC and particles in ozonation and biological activated carbon processes, Chem. Eng. J., 276 (2015) 37–43.
  4. W.C. Yin, J.S. Zhang, L.J. Liu, Y. Zhao, T. Li, C. Lin, Removal efficiency of invertebrates in the filtrate of biologically activated carbon filter with sand bed, J. Water Supply Res. Technol., 61 (2012) 228–239.
  5. J. Zhu, H.B. Chen, C. Chen, X.H. Dai, Study on the migration and inactivation of invertebrates in the advanced treatment process in waterworks, Fresenius Environ. Bull., 23 (2014) 1314–1321.
  6. H. Schreiber, D. Schoenen, W. Traunspurger, Invertebrate colonization of granular activated carbon filters, Water Res., 31 (1997) 743–748.
  7. Q. Wang, W. You, X.W. Li, Y.F. Yang, L.J. Liu, Seasonal changes in the invertebrate community of granular activated carbon filters and control technologies, Water Res., 51 (2014) 216–227.
  8. X.W. Li, Y.F. Yang, L.J. Liu, J.S. Zhang, Q. Wang, Invertebrate community characteristics in biologically active carbon filter, J. Environ. Sci., 22 (2010) 648–655.
  9. F. Bichai, B. Barbeau, Y. Dullemont, W. Hijnen, Role of predation by zooplankton in transport and fate of protozoan (oo) cysts in granular activated carbon filtration, Water Res., 44 (2010) 1072–1081.
  10. F. Bichai, Y. Dullemont, W. Hijnen, B. Barbeau, Predation and transport of persistent pathogens in GAC and slow sand filters: a threat to drinking water safety? Water Res., 64 (2014) 296–308.
  11. F.H. Tan, G.Q. Wang, X.S. Liu, T. Yin, C.N. Wang, The first case of urinary infection in the absence of a cavity rotifer in China, Clin. J. Med. Officer, 28 (2000) 78.
  12. M.I. Kerwick, S.M. Reddy, A.H.L. Chamberlain, D.M. Holt, Electrochemical disinfection, an environmentally acceptable method of drinking water disinfection? Electro chim. Acta, 50 (2005) 5270–5277.
  13. M.P.V. Azanza, R.V. Azanza, A.I. Gedaria, H.G. Sententa, M.V. Idjao, Decimal reduction times of pyrodinium bahamense, var. compressum, and escherichia coli, in chlorine- and ultraviolet-treated seawater, Lett. Appl. Microbiol., 33 (2001) 371–376.
  14. C. Khomvilai, M. Kashiwagi, C. Sangrungruang, M. Yoshioka, Preventive efficacy of sodium hypochlorite against water mold infection on eggs of chum salmon Oncorhynchus keta, Fisheries Sci., 72 (2006) 28–32.
  15. G.N. Frerichs, A. Tweedie, W.G. Starkey, R.H. Richards, Temperature, ph and electrolyte sensitivity, and heat, uv and disinfectant inactivation of sea bass (Dicentrarchus labrax) neuropathy nodavirus, Aquaculture, 185 (2000) 13–24.
  16. J.M. Shields, V.R. Hill, M.J. Arrowood, M.J. Beach, Inactivation of cryptosporidium parvum under chlorinated recreational water conditions, J. Water Health, 6 (2008) 513–520.
  17. Z.H. Lu, B.K. Zhao, J.X. Yang, T.W. Snell, Effects of atrazine and carbaryl on growth and reproduction of the rotifer brachionus calyciflorus Pallas, J. Freshwater Ecol., 27 (2012) 527–537.
  18. R.M. Clark, M. Sivaganesan, Predicting chlorine residuals in drinking water: second order model, J. Water Res. Pl. Manage., 128 (2002) 152–161.
  19. K.P. Yan, M.D. Zhang, W.Q. Zhou, Y.L. Cai, L.P. Zou, G.J. Ding, Inactivation kifilterics of nematode in application of disinfection with sodium hypochlorite, Water Purifica. Technol., 29 (2010) 28–31.
  20. L. Zhang, W. Hua, W. Chen, T. Lin, Inactivation efficiency and mechanism of chlorine and chloramine on copepods, City Town Water Supply, (2015) 36–40.
  21. B.F. Luo, B. Zhang, Y.Y. Du, The selection of disinfection process for rural safe drinking water project based on the safety and economy of disinfection by-products, City Town Water Supply, (2013) 77–79.
  22. M. Sheng, F. Ma, W.W. Yang, Study on stability of aqueous sodium hypochlorite solution, Technol. Dev. Chem. Ind., 34 (2005) 8–10.
  23. T.L.T. Dang, T. Imai, T.V. Le, D.M.K. Nguyen, T. Higuchi, A. Kanno, K. Yamamoto, M. Sekine, Synergistic effect of pressurized carbon dioxide and sodium hypochlorite on the inactivation of Enterococcus sp. in seawater, Water Res., 106 (2016) 204–213.
  24. S. Fukuzaki, Mechanisms of actions of sodium hypochlorite in cleaning and disinfection processes, Biocontrol Sci., 11 (2006) 147–157.
  25. G. Rossi-Fedele, A.R. Guastalli, E.J. Dogramaci, L. Steier, J.A.P. De Figueiredo, Influence of pH changes on chlorine-containing endodontic irrigating solutions, Int. Endod. J., 44 (2011) 792–799.
  26. X.F. Huang, Effect of temperature on the egg development, population growth and production of Brachionus calyciflorus pallas (rotifera), Acta Hydrobiologica Sinica, 9 (1985) 232–240.
  27. T.C. Xu, The toxicity of MNNG and UV-B to the growth and reproduction of rotifer Brachionus plicatilis, Zhejiang: Ningbo University, Dissertation, 2005.