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中国有色金属学报

ZHONGGUO YOUSEJINSHU XUEBAO

第24卷    第4期    总第181期    2014年4月

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文章编号:1004-0609(2014)04-1063-07
基于正交试验的赤泥沉降槽中心桶结构优化
李秋龙1, 2,李 茂1, 2,雷 波1, 2,周 天1, 2,周孑民1, 2

(1. 中南大学 能源科学与工程学院,长沙 410083;
2. 中南大学 流程工业节能湖南省重点实验室,长沙 410083
)

摘 要: 为提高中心桶内固含浓度在60~70 g/L范围内料浆的体积分数,以正交试验和数值模拟的方法对沉降槽中心桶的5个结构参数进行数值仿真试验。设计一个5因素5水平的L25(55)正交试验方案,采用仿真软件FLUENT对不同结构参数组合的沉降槽进行数值模拟计算,分析沉降槽中心桶的结构参数对中心桶内固含分布的影响规律,用极差分析和方差分析法对计算结果进行数理统计分析,得出5个因素对试验指标影响的主次顺序和显著性,从而得到中心桶结构参数的优化组合。结果表明:中心桶内固含分布的主要影响因素是进料射流管的直径,沉降槽中心桶的最佳组合结构参数为中心桶直径为3 m,中心桶深度为5 m、射流管直径d1、d2和d3分别为0.8、0.48和0.36 m,环形挡流板离进料管下沿高度为0.22 m,喉嘴距为0.18 m;优化工况下,中心桶内处于最佳絮凝固含浓度范围内的料浆体积所占中心桶体积的体积分数变为基础工况的4.8倍,显著地提高沉降槽的絮凝沉降效率。

 

关键字: 沉降槽;中心桶;正交试验;赤泥;絮凝;数值模拟

Optimization of feedwell design in red mud thickener based on orthogonal experiment
LI Qiu-long1, 2, LI Mao1, 2, LEI Bo1, 2, ZHOU Tian1, 2, ZHOU Jie-min1, 2

1. School of Energy Science and Engineering, Central South University, Changsha 410083, China;
2. Hunan Key Laboratory of Energy Conservation in Process Industry, Central South University,
Changsha 410083, China

Abstract:In order to improve the volume fraction of liquid with solid concentration of 60-70 g/L in the feedwell, a orthogonal experiment was proposed through a L25(55)orthogonal program to investigate the feedwell’s performance under five different structural factors. Numerical simulation as well as customed criteria was used to conduct the experiment and evaluate the results. The effects of structure parameters on solid concentration distribution in the feedwell were analyzed, further more, the range analysis and variance analysis were also used to analyze the experiment results. The primary and secondary order sequence of the five factors and their significant effects on design index are obtained, and then, the optimal combination of the feedwell structural parameter was received. The type of the jet pipe is the primary factor, and the optimal combination of the feedwell structural parameters is diameter of 3 m, depth of 5 m, the jet pipe diameter d1, d2 and d3, respectively, of 0.8, 0.48 and 0.36 m, the annular baffle 0.22 m below the feed pipe, throat nozzle distance of 0.18 m. Under the optimal condition, the volume fraction of the best solid concentration can be increased by 4.8 times compared with that of the base case, which significantly improves the efficiency and process of the thickener.

 

Key words: thickener; feedwell; orthogonal test; red mud; flocculation; numerical simulation

ISSN 1004-0609
CN 43-1238/TG
CODEN: ZYJXFK

ISSN 1003-6326
CN 43-1239/TG
CODEN: TNMCEW

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