References

  1. V.H. Smith, W.K. Dodds, K.E. Havens, D.R. Engstrom, H.W. Parel, B. Moss, G.E. Likens, Comment: Cultural eutrophication of natural lakes in the United States is real and widespread, Limnol Oceanogr., 59 (2014) 2217–2225.
  2. D.D. Kane, J.D. Conroy, R.P. Richards, D.B. Baker, D.A. Culver, Re-eutrophication of Lake Erie: Correlations between tributary nutrient loads and phytoplankton biomass, J. Great Lakes Res., 40 (2014) 496–501.
  3. R. Henderson, S.A. Parsons, B. Jefferson, The impact of algal properties and pre-oxidation on solid–liquid separation of algae, Water Res., 42 (2008) 1827–1845.
  4. M. Raeli, M. Marchetto, High-rate dissolved air flotation for water treatment, Water Sci. Technol., 43 (2001) 43–49.
  5. J.L. Guo, Y.L. Wang, Counter current co-flocculation flotation - new water treatment method, China Water Wastewater, 18 (2002) 12–16.
  6. J. Guo, Y. Wang, D. Li, H. Tang, Counterflow co-flocculation flotation for water purification, J. Environ. Sci. Health B, part A, 38 (2003) 923–934.
  7. Y. Wang, N. Wang, R. Jia, K. Zhang, B. Liu, W. Song, J. Jia, Research on CFD numerical simulation and flow field characteristics of counter current-co-current dissolved air flotation, Water Sci. Technol., 10 (2018) 2166.
  8. J.Q. Jiang, Development of coagulation theory and pre-polymerized coagulants for water treatment, Separ. Purif. Rev., 30 (2007) 127–141.
  9. H. Zhang, Research on microalgae coagulation copolymerization flotation based on jet flow field, China Uni. Mining Technol., 2013.
  10. Y. Wang, B. Liu, K. Zhang, H. Wang, M. Li, R. Jia, W. Song, Decontamination features and mechanism research of copolymerization dissolved air flotation process, J. Residuals Sci. Tech., 13 (2016) S111–S118.
  11. X. Wang, W. Zheng, J. Ma, S. Ma, X. Liu, Q. Zhang, Preformance of new flotation system based on high dissolved air content, CIESC J., 64 (2013) 1099–1105.
  12. F. Lv, L. Chu, J. Zhou, Y. Gan, X. Xing, Development of a new micro-bubble system and its performance, CIESC J., 64 (2011) 1537–1542.
  13. M. Lundh, J. Lennart, Experimental studies of the fluid dynamics in the separation zone in dissolved air flotation, Water Res., 34 (2000) 21–30.
  14. W. Zhang, D. Zeng, B. Zhang, Application and design of integrated air floatation filter, China Water Wastewater, 29 (2013) 46–48.
  15. J.K. Edzwald, Principles and applications of dissolved air flotation, Water Sci. Technol., 31 (1995) 1–23.
  16. M. Lundh, L. Jönsson, J. Dahlquist, Experimental studies of the fluid dynamics in the separation zone in dissolved air flotation, Water Res., 34 (2000) 21–30.
  17. Y.L. Wang, K. Zhang, W. Chen, H. Wang, M. Li, R. Jia, The study on the operating characteristics of algae-contaminated reservoir water using gac-sand dual media filter flofilter, J. Resid. Sci Tech., 13 (2016) S93–S99.
  18. Y. Liu, S. Zhang, X. Zhang, A study of treatment of water from miyun reservoir by dissolved air flotation precess, Ind. Water Wastewater, 35 (2004) 17–20.
  19. S. Zhang, W. Lu, D. Jiang, Removal of organic compounds from high algae raw water by activated carbon filter, China Water Wastewater, 20 (2004) 47–49.
  20. A. Eades, W.J. Brignall, Counter-current dissolved air flotation/filtration, Water Sci. Technol., 31 (1995) 173–178.
  21. Y.L. Wang, J. Li, K.F. Zhang, R.B. Jia, M. Li, W.C. Song, A.S. Wang, L. Wang, The optimization design and operating characteristics of vertical flow dissolved air flotation carbon-sand dual media filter flofilter, Adv. Mater. Res., 864 (2014) 2031–2034.
  22. W. Yonglei, Z. Kefeng, Y. Mengmeng, J. Ruibao, The research of the flofilter technology with micro-flocculation and GAC sand to treat eutrophic water, Bioinformatics and Biomedical Engineering (iCBBE), 2010 4th International Conference on. IEEE, (2010) 1–3.
  23. Y. Liu, Analysis of practical application effect of air flotation filter treatment technology, Technol. Develop. Chem. Ind., 04 (2015) 56–57.
  24. X. Zhang, J.C. Hewson, P. Amendola, M. Reynoso, M. Sommerfeld, Y.S. Chen, Q. Hu, Critical evaluation and modeling of algal harvesting using dissolved air flotation, Biotechnol. Bioeng., 111 (2014) 2477–2485.
  25. I.X. Zhu, B.J. Bates, D.M. Anderson, Removal of prorocentrum minimum from seawater using dissolved air flotation, J. Appl. Water Eng. Res., 12 (2014) 47–56.
  26. F.M. Martinez, N.J.M. Cabrales, J.A.D. Rincon, Process to reduce the chemical oxygen demand, total organic carbon, and total solids in vinasse by electroflotation/oxidation: US, 8425755. 2013-04-23.
  27. H. Hu, G. Li, J. Liu, W. Cao, Experimental study on improving recovery of copper from a copper ore by carrier flotation, Mining Res. Develop., 33 (2013) 9–12.
  28. C.J. Corwin, Trace organic contaminant removal from drinking waters by granular activated carbon: Adsorption, desorption, and the effect of background organic matter, Dissertations and Theses - Gradworks, 2010.
  29. S. Zhang, Y. Liu, Z.T. Guo, Study on efficiency of compact flofilter of dissolved air flotation and GAC deep bed filtration for treatment of different raw water, China Water Wastewater, 11 (2008) 68–71.
  30. W.J. Jia, K.F. Zhang, Q.W. Zhang, Y.L. Wang, L. Mei, Study on water efficiency and mechanism of treatment of Yellow River Reservoir by graded copolymerization air flotation, Technol. Water Treat., (2015) 99–103.
  31. E.M. Thurman, Organic Geochemistry of Natural Waters. Springer Publishers, USA, 1985.
  32. N. Her, G.L. Amy, H.R. Park, M. Song, Characterizing algogenic organic matter (AOM) and evaluating associated membrane fouling, Water Res., 38 (2004) 1427–1438.
  33. M.R. Brown, C.D. Garland, S.W. Jeffrey, LD. Jameson, J.M. Leroi, The gross and amino-acid compositions of batch and semi continuous cultures of Isochrysis Sp (Clone Tiso), Pavlova- Lutheri and Nannochloropsis-Oculata, J. Appl. Phycol., 5 (1993) 285–296.
  34. B. Lüsse, O. Hoyer, C.J. Soeder, Mass cultivation of plank tonic freshwater algae for the production of extracellular organic matter (EOM), Zeitschrift für Wasser-und Abwasser-Forschung, 18 (1985) 67–75.
  35. L. Li, N. Gao, Y. Deng, J. Yao, K. Zhang, Characterization of intracellular and extracellular algae organic matters (AOM) of microcystic aeruginosa and formation of AOM-associated disinfection byproducts and odor and taste compounds, Water Res., 46 (2012) 1233–1240.
  36. D. Cook, G. Newcombe, P. Sztajnbok, The application of powdered activated carbon for mib and geosmin removal: predicting pac doses in four raw waters, Water Res., 35 (2001) 1325–1333.
  37. T.E. Chestnutt, M.T. Bach, D.W. Mazyck, Improvement of thermal reactivation of activated for the removal of 2-methylisoborneol, Water Res., 41 (2007) 79–86.
  38. A.D. Ndreadakis, D. Mamais, E.A. Gavalakis, C. Noutsopoulos, N. Kouris, G. Nikitopoulos, Removal of taste and odour from potable water by ozone and powdered activated carbon (PAC), Int. J. Environ. Waste Manag., 5 (2010) 329–409.
  39. N. Terauchi, T. Ohtani, K. Yamanaka, T. Tsuji, T. Sudou, K. Ito, Studies on a biological filter for musty odor removal in drinking water treatment processes, Water Sci. Technol., 31 (1995) 229–235.
  40. J. Jiao, N.X. Lu, H.Y. Wang, Z.C. Hu, J. Yuan, Removal of odorous substance from algae metabolites in raw water of Taihu Lake, China Water Wastewater, 32 (2016) 64–67.
  41. Y. Liu, Study on the Treatment of Miyun Reservoir Water by Deep-bed GAC Flofilter, Tsinghua University, Beijing, 2004.
  42. S. He, The methods of removal DOM in surface water, Northwest A&F university, Yangling, Shanxi, 2016.
  43. H.J. Kluru, Development of dissolved air flotation technology from the first generation to the newest one, Water Sci. Technol., 43 (2001) 1–7.