| [1] | Matilainen A, Vepsäläinen M, Sillanpää M. Natural organic matter removal by coagulation during drinking water treatment: A review[J]. Advances in Colloid and Interface Science, 2010, 159(2): 189-197 |
| [2] | Jarvis P, Jefferson B, Parsons S A. How the natural organic matter to coagulant ratio impacts on floc structural properties[J].Environmental Science and Technology, 2005, 39(22): 8919-8924 |
| [3] | Edzwald J K, Benschoten Van J E. Aluminum coagulation of natural organic matter// Chemical Water and Wastewater Treatment[M]. Springer, 1990: 341-359 |
| [4] | Wilkinson K, Negre J C, Buffle J. Coagulation of colloidal material in surface waters: The role of natural organic matter[J].Journal of Contaminant Hydrology, 1997, 26(1/4): 229-243 |
| [5] | Korshin G V, Benjamin M M, Sletten R S. Adsorption of natural organic matter (NOM) on iron oxide: Effects on NOM composition and formation of organo-halide compounds during chlorination[J].Water Research, 1997, 31(7): 1643-1650 |
| [6] | 梁亮, 俞文正, 徐磊. 柠檬酸对不同混凝剂混凝效果的影响[J].环境科学学报, 2013, 33(9): 2428-2431 |
| [7] | Henderson RK, Parsons S A, Jefferson B. The impact of differing cell and algogenic organic matter (AOM) characteristics on the coagulation and flotation of algae[J].Water research, 2010, 44(12): 3617-3624 |
| [8] | 施国键, 乔俊莲, 王国强,等. 胞外分泌物和天然有机物对混凝的影响[J].环境科学, 2010, 31(3): 673-677 |
| [9] | Glover S M, Yan Y D, Jameson G J, et al. Bridging flocculation studied by light scattering and settling[J].Chemical Engineering Journal, 2000, 80(1/3): 3-12 |
| [10] | 朱哲, 李涛, 王东升,等. 阳离子型聚丙烯酰胺投加量对絮体性状特征的影响[J].环境化学, 2007, 26(2): 175-179 |
| [11] | Wang D, Gregory J, Tang H. Mechanistic difference of coagulation of kaolin between PACl and cationic polyelectrolytes: A comparative study on zone 2 coagulation[J].Drying Technology, 2008, 26(8): 1060-1067 |
| [12] | Li T, Zhu Z, Wang D, Yao C, et al. Characterization of floc size, strength and structure under various coagulation mechanisms[J].Powder Technology, 2006, 168(2): 104-110 |
| [13] | Walker H W, Bob M M. Stability of particle flocs upon addition of natural organic matter under quiescent conditions[J].Water Research, 2001, 35(4): 875-882 |
| [14] | Hu C, Liu H, Qu J, et al. Coagulation behavior of aluminum salts in eutrophic water: Significance of Al13 species and pH control[J].Environmental Science and Technology, 2006, 40(1): 325-331 |
| [15] | Yan M, Wang D, Qu J, et al. Enhanced coagulation for high alkalinity and micro-polluted water: The third way through coagulant optimization[J].Water research, 2008, 42(8/9): 2278-2286 |
| [16] | Zhao H, Liu H, Qu J. Effect of pH on the aluminum salts hydrolysis during coagulation process: Formation and decomposition of polymeric aluminum species[J].Journal of Colloid and Interface Science, 2009, 330(1):105-112 |
| [17] | Kuan W H, Wang M K, Huang P M, et al. Effect of citric acid on aluminum hydrolytic speciation[J].Water Research, 2005, 39(15): 3457-3466 |
| [18] | Liu Y, Zhang W, Yang X, et al. Advanced treatment of effluent from municipal WWTP with different metal salt coagulants: Contaminants treatability and floc properties[J].Separation and Purification Technology, 2013, 120: 123-128 |