Mathematical model and factors of paste thickener rake torque
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摘要: 基于泥床料漿的非牛頓體特征,以及料漿初始剪切應力與濃度的變化規律,本文提出了耙架扭矩計算模型.模型預測結果顯示,耙架扭矩隨底流濃度升高而增大,底流濃度對濃密機運行時的扭矩百分比的影響幅度可達4.67%,兩者呈現為多項式函數關系.與此同時,泥床高度對耙架扭矩影響較小,影響幅度僅為0.27%.通過某鉛鋅礦膏體濃密機64 h運行過程實時監測數據對比,驗證了模型關于底流濃度和泥床高度對扭矩的影響規律.Abstract: In mining, cement paste backfill technology uses the high concentration tailings that remain after mineral processing to backfill underground stopes. These tailings are prepared by dewatering, mixed with a proportion of cement or other binder, then, after sufficient mixing, the saturated homogenized slurry is pumped or gravity-transported. Therefore, high concentration tailings are a prerequisite for cement paste backfill preparation and high quality backfill. The paste thickener is a key component that shows high efficiency dewatering, and rake shearing greatly affects tailings dewatering performance; therefore, appropriate rake torque design is crucial for efficient paste thickener operation. Rake torque is a key factor in determining the dewatering extent and the rate of flocculation in the networked structure bed in the thickener compression zone. In some industry processes, the problems of rake bogging, rat holing, swirl motion, and insufficient underflow concentration can affect production or seriously damage equipment. All these problems can be attributed to poor rake design or operation. Based on the non-Newtonian characteristics of a mud bed and the correlation of slurry initial shear stress with solids concentration, a torque mathematical model was proposed. The model predicted a rake torque increase with an increase in underflow concentration during thickener operation; the percentage of rake torque variation reached 4.67%. Regression analysis indicates that the percentage of rake torque presents as a polynomial function of the underflow concentration. At the same time, bed height affected rake torque slightly and the rake torque percentage varied within 0.27% when the bed height fluctuated. The predicted effects of underflow concentration and bed height on rake torque are confirmed and compared with 64 h of operational data on thickener operations in a lead-zinc mine.
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Key words:
- tailings dewatering /
- rake torque /
- initial shear stress /
- bed height /
- underflow concentration
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參考文獻
[1] Scales P J, Kumar A, van Deventer B B G, et al. Compressional dewatering of flocculated mineral suspensions. Can J Chem Eng, 2015, 93(3):549 [2] Gladman B R, Rudman M, Scales P J. The effect of shear on gravity thickening:pilot scale modelling. Chem Eng Sci, 2010, 65(14):4293 [3] Rudman M, Paterson D A, Simic K. Efficiency of raking in gravity thickeners. Int J Miner Process, 2010, 95(1-4):30 [4] Günthert F W. Thickening zone and sludge removal in circular final settling tanks. Water Sci Technol, 1984, 16(10-11):303 [5] Frost R C, Halliday J, Dee A S. Continuous consolidation of sludge in large scale gravity thickeners. Water Sci Technol, 1993, 28(1):77 [6] Warden J H. The design of rakes for continuous thickeners especially for waterworks coagulant sludges. Filtr Sep, 1981:113 [7] Albertson O E, Okey R W. Evaluating scraper designs. Water Environ Technol, 1992, 4(1):52 [12] Rudman M, Simic K, Paterson D A, et al. Raking in gravity thickeners. Int J Miner Process, 2008, 86(1-4):114 [13] Gladman B R, Rudman M, Scales P J. Experimental validation of a 1-D continuous thickening model using a pilot column. Chem Eng Sci, 2010, 65(13):3937 [14] Usher S P, Scales P J, White L R. Prediction of transient bed height in batch sedimentation at large times. AIChE J, 2006, 52(3):986 [15] Comings E W, Pruiss C E, DeBord C. Continuous settling and thickening. Ind Eng Chem, 1954, 46(6):1164 [16] Assaad J J, Harb J, Maalouf Y. Effect of vane configuration on yield stress measurements of cement pastes. J Non-Newtonian Fluid Mech, 2016, 230:31 -
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