·986· 工程科学学报，第41卷，第8期 的影响规律.中国有色金属学报，2017,27(2)：318) non-wavy flow regime.Chem Eng Sci,2009,64(13):3103 [8]Zhang L F,Wu A X,Wang H J,et al.Representation of batch [Gregory J.Solid-Liquid Sparation.Chichester:Ellis Horwood settling ria fitting a logistic function.Miner Eng,2018,128:160 Limited,1984 [9]Zhu L Y,Li W S,Yang P,et al.Thickening sedimentation of [21]Maes A,Vreysen S,Rulyov N N.Effect of various parameters on unclassified tailings under influence of extemal field based on re the ultraflocculation of fine sorbent particles,used in the sponse surface method.Chin J Nonferrous Met,2018,28(9): wastewater purification from organic contaminants.Water Res, 1908 2003,37(9):2090 (诸利一，吕文生，杨鹏，等.基于响应面法外场作用下全尾 [22]Li S L,Gao L H,Cao Y J,et al.Effect of pH on the flocculation 砂浓密沉降试验.中国有色金属学报，2018,28(9)：1908) behaviors of kaolin using a pH-sensitive copolymer.Water Sci [10]Jiao H Z,Wang H J,Wu A X,et al.Rule and mechanism of Technol,2016,74(3):729 flocculation sedimentation of unclassified tailings.Univ Sci [23]Heath A R,Bahri P A,Fawell P D,et al.Polymer flocculation Technol Beijing,2010,32(6):702 of calcite:Population balance model.A/ChE J,2006,52(5): (焦华枯，王洪江，吴爱祥，等.全尾砂絮凝沉降规律及其机 1641 理.北京科技大学学报，2010,32(6)：702) [24]SerraT,Colomer J,Logan B E.Efficiency of different shear de- [11]Concha F,Segovia J P,Vergara S,et al.Audit industrial thick- vices on flocculation.Water Res,2008,42(4-5):1113 eners with new on-line instrumentation.Powder Technol,2017, [25]Mietta F,Chassagne C,Manning A J,et al.Influence of shear 314:680 rate,organic matter content,pH and salinity on mud floccula- [12]Carissimi E,Rubio J.Polymer-bridging flocculation performance tion.0 cean Dyn,2009,59(5):751 using turbulent pipe flow.Miner Eng,2015,70:20 [26]Gao Z Y,Wu A X.Peng N B,et al.Research on the floccula- [13]Rulyov NN.Ultra-flocculation:Theory,experiment,applica- tion settlement rules and parameters optimization of filling tail- tions//Proceedings of the 5th UBC-McGill Biennial Internation- ings.Met Mine,2017(6):186 al Symposium on Fundamentals of Mineral.Hamilton,2004:197 (高志勇，吴爱祥，彭乃兵，等.充填尾矿絮凝沉降规律及参 [14]Konduri M K R,Fatehi P.Influence of pH and ionic strength on 数优化.金属矿山，2017(6)：186) flocculation of clay suspensions with cationie xylan copolymer. [27]Banisi S,Yahyaei M.Feed dilution-based design of a thickener Colloids Surf A,2017,530:20 for refuse slurry of a coal preparation plant.Int JCoal Prep Util, [15]Concha F.Rulyov N N,Laskowski JS.Settling velocities of par- 2008,28(4):201 ticulate systems 18:solid flux density determination by ultra-floc- [28]Smoluchowski M.Versuch eine mathematischen Theorie der Ko- culation.Int J Miner Process,2012,104-105:53 agulationskinetik kolloidaler Losungen.Z Phys Chem,1918,92 [16]Botha L,Soares J B P.The influence of tailings composition on (1):129 flocculation.Can J Chem Eng,2015,93(9):1514 [29]Owen A T.Nguyen T V,Fawell P D.The effect of flocculant so- [17]Patil D P,Andrews J R G,Uhlherr P H T.Shear flocculation- lution transport and addition conditions on feedwell performance kinetics of floc coalescence and breakage.Int Miner Process, in gravity thickeners.Int JMiner Process,2009.93(2):115 2001,61(3):171 [30]Li Q L,Li M,Lei B,et al.Optimization of feedwell design in [18]Tanguay M,Fawell P,Adkins S.Modelling the impact of two red mud thickener based on orthogonal experiment.Chin Non- different flocculants on the performance of a thiekener feedwell. ferrous Met,2014,24(4):1063 4 ppl Math Model,2014,38(17-18):4262 (李秋龙，李茂，雷波，等.基于正交试验的赤泥沉降槽中心 [19]Dusting J,Balabani S.Mixing in a Taylor-Couette reactor in the 桶结构优化.中国有色金属学报，2014,24(4)：1063)工程科学学报,第 41 卷,第 8 期 的影响规律. 中国有色金属学报, 2017, 27(2): 318) [8] Zhang L F, Wu A X, Wang H J, et al. Representation of batch settling via fitting a logistic function. Miner Eng, 2018, 128: 160 [9] Zhu L Y, L俟 W S, Yang P, et al. Thickening sedimentation of unclassified tailings under influence of external field based on re鄄 sponse surface method. Chin J Nonferrous Met, 2018, 28 (9 ): 1908 (诸利一, 吕文生, 杨鹏, 等. 基于响应面法外场作用下全尾 砂浓密沉降试验. 中国有色金属学报, 2018, 28(9): 1908) [10] Jiao H Z, Wang H J, Wu A X, et al. Rule and mechanism of flocculation sedimentation of unclassified tailings. J Univ Sci Technol Beijing, 2010, 32(6): 702 (焦华喆, 王洪江, 吴爱祥, 等. 全尾砂絮凝沉降规律及其机 理. 北京科技大学学报, 2010, 32(6): 702) [11] Concha F, Segovia J P, Vergara S, et al. Audit industrial thick鄄 eners with new on鄄line instrumentation. Powder Technol, 2017, 314: 680 [12] Carissimi E, Rubio J. Polymer鄄bridging flocculation performance using turbulent pipe flow. Miner Eng, 2015, 70: 20 [13] Rulyov N N. Ultra鄄flocculation: Theory, experiment, applica鄄 tions / / Proceedings of the 5th UBC鄄鄄McGill Biennial Internation鄄 al Symposium on Fundamentals of Mineral. Hamilton, 2004: 197 [14] Konduri M K R , Fatehi P. Influence of pH and ionic strength on flocculation of clay suspensions with cationic xylan copolymer. Colloids Surf A, 2017, 530: 20 [15] Concha F, Rulyov N N, Laskowski J S. Settling velocities of par鄄 ticulate systems 18: solid flux density determination by ultra鄄floc鄄 culation. Int J Miner Process, 2012, 104鄄105: 53 [16] Botha L, Soares J B P. The influence of tailings composition on flocculation. Can J Chem Eng, 2015, 93(9): 1514 [17] Patil D P, Andrews J R G, Uhlherr P H T. Shear flocculation— kinetics of floc coalescence and breakage. Int J Miner Process, 2001, 61(3): 171 [18] Tanguay M, Fawell P, Adkins S. Modelling the impact of two different flocculants on the performance of a thickener feedwell. Appl Math Model, 2014, 38(17鄄18): 4262 [19] Dusting J, Balabani S. Mixing in a Taylor鄄鄄Couette reactor in the non鄄wavy flow regime. Chem Eng Sci, 2009, 64(13): 3103 [20] Gregory J. Solid鄄Liquid Sparation. Chichester: Ellis Horwood Limited, 1984 [21] Maes A, Vreysen S, Rulyov N N. Effect of various parameters on the ultraflocculation of fine sorbent particles, used in the wastewater purification from organic contaminants. Water Res, 2003, 37(9): 2090 [22] Li S L, Gao L H, Cao Y J, et al. Effect of pH on the flocculation behaviors of kaolin using a pH鄄sensitive copolymer. Water Sci Technol, 2016, 74(3): 729 [23] Heath A R, Bahri P A, Fawell P D, et al. Polymer flocculation of calcite: Population balance model. AIChE J, 2006, 52 (5): 1641 [24] Serra T, Colomer J, Logan B E. Efficiency of different shear de鄄 vices on flocculation. Water Res, 2008, 42(4鄄5): 1113 [25] Mietta F, Chassagne C, Manning A J, et al. Influence of shear rate, organic matter content, pH and salinity on mud floccula鄄 tion. Ocean Dyn, 2009, 59(5): 751 [26] Gao Z Y, Wu A X, Peng N B, et al. Research on the floccula鄄 tion settlement rules and parameters optimization of filling tail鄄 ings. Met Mine, 2017(6): 186 (高志勇, 吴爱祥, 彭乃兵, 等. 充填尾矿絮凝沉降规律及参 数优化. 金属矿山, 2017(6): 186) [27] Banisi S, Yahyaei M. Feed dilution鄄based design of a thickener for refuse slurry of a coal preparation plant. Int J Coal Prep Util, 2008, 28(4): 201 [28] Smoluchowski M. Versuch eine mathematischen Theorie der Ko鄄 agulationskinetik kolloidaler Losungen. Z Phys Chem, 1918, 92 (1): 129 [29] Owen A T, Nguyen T V, Fawell P D. The effect of flocculant so鄄 lution transport and addition conditions on feedwell performance in gravity thickeners. Int J Miner Process, 2009, 93(2): 115 [30] Li Q L, Li M, Lei B, et al. Optimization of feedwell design in red mud thickener based on orthogonal experiment. Chin J Non鄄 ferrous Met, 2014, 24(4): 1063 (李秋龙, 李茂, 雷波, 等. 基于正交试验的赤泥沉降槽中心 桶结构优化. 中国有色金属学报, 2014, 24(4): 1063) ·986·