References

1. Y. Choi, Changes on frequency and magnitude of heavy rainfall events in Korea, J. Korean Data Anal. Soc., 4 (2002) 269–282.
2. D.H. Bache, R. Gregory, Flocs in Water Treatment, IWA Publishing, London, 2007.
3. C. Desjardins, B. Koudjonou, R. Desjardins, Laboratory study of ballasted flocculation, Water Res., 36 (2001) 744–754.
4. J.M. Phillips, D.E. Walling, An assessment of the effects of sample collection, storage and resuspension on the representativeness of measurements of the effective particle size distribution of fluvial suspended sediment, Water Res., 29 (1995) 2498–2508.
5. J.C. Young, F.G. Edwards, Fundamentals of Ballasted Flocculation Reactions, Proc. Water Environmental Federation, 2000, pp. 56–80.
6. N. Tambo, Y. Watanabe, Physical aspect of flocculation process—I. Fundamental treatise, Water Res., 13 (1979) 429–439.
7. H. Zhou, S. Xu, L. Mi, Z. Sun, Y. Qin, A study on independently using static and dynamic light scattering methods to determine the coagulation rate, J. Chem. Phys., 141 (2014) 094302.
8. R. Govoreanu, H. Saveyn, P. Van der Meeren, I. Nopens, P.A. Vanrolleghem, A methodological approach for direct quantification of the activated sludge floc size distribution by using different techniques, Water Sci. Technol., 60 (2009) 1857–1867.
9. G. Eshel, G.J. Levy, U. Mingelgrin, M.J. Singer, Critical evaluation of the use of laser diffraction for particle-size distribution analysis, Soil Sci. Soc. Am. J., 68 (2004) 736–743.
10. D.H. Boer, M. Stone, Fractal dimensions of suspended solids in streams: comparison of sampling and analysis techniques, Hydrol. Processes, 13 (1999) 239–254.
11. A. Keyvani, K. Strom, A fully-automated image processing technique to improve measurement of suspended particles and flocs by removing out-of-focus objects, Comput. Geosci., 52 (2013) 189–198.
12. D. Eisma, T. Schuhmacher, H. Boekel, J. Van Heerwaarden, H. Franken, M. Laan, A. Vaars, F. Eijgenraam, J. Kalf, A camera and image-analysis system for in situ observation of flocs in natural waters, Neth. J. Sea Res., 27 (1990) 43–56.
13. X. Li, X. Zhai, H.P. Chu, J. Zhang, Characterization of the flocculation process from the evolution of particle size distributions, J. Environ. Eng., 134 (2008) 369–375.
14. M. Schmid, A. Thill, U. Purkhold, M. Walcher, J.Y. Bottero, P. Ginestet, P.H. Nielsen, S. Wuertz, M. Wagner, Characterization of activated sludge flocs byconfocal laser scanning microscopy and image analysis, Water Res., 37 (2003) 2043–2052.
15. C.A. Biggs, P.A. Lant, Activated sludge flocculation: on-line determination of floc size and the effect of shear, Water Res., 34 (2000) 2542–2550.
16. Evoqua Water Technologies CoMag™ CEPT Pilot Plant Report, EVOQUA Water Technologies, 2014.
17. J. Kilander, S. Blomstrom, A. Rasmuson, Spatial and temporal evolution of floc size distribution in a stirred square tank investigated using PIV and image analysis, Chem. Eng. Sci., 61 (2006) 7651–7667.
18. P. Polasek, Differentiation between different kinds of mixing in water purification – back to basics, Water SA, 33 (2007) 249–251.
19. R.J. Francois, Strength of aluminium hydroxide flocs, Water Res., 21 (1987) 1023–1030.
20. R.K. Chakraborti, K.H. Gardner, J. Kaur, J.F. Atkinson, In situ analysis of flocs, J. Water Supply Res. Technol., 56 (2007) 1–11.