重选机在南察巴郎钨矿富集中的应用

Q4 Earth and Planetary Sciences

International Journal of Mining and Geo-Engineering Pub Date : 2016-06-01 DOI:10.22059/IJMGE.2016.57304

Hamid Hedayati Sarab-shahrak, M. Noaparast, S. Z. S. Tonkaboni, S. Hosseini

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引用次数: 3

摘要

采用跳汰机(-2360+600µm)、振动台(-600+120µm)和多重分离机(-120µm)等重选机，考察了南察巴朗钨铜脉矿选矿的可能性。代表性样品WO3含量为1.5%，CuO含量为5.95%。钨矿物主要为铁素体和黑钨矿，其适宜解离度约在250µm范围内。采用Box-Behenken法和CCD响应面法分别对跳模机和MGS结果进行建模和优化。采用全因子设计方法对振动台性能进行了建模。在跳汰机试验中，研究了水流速度、频率和进料粒度对跳汰机的影响。甲板倾角、洗涤水量、给水量是振动台的工作参数。在MGS试验中，考察了倾斜角度和洗涤流量两个参数的影响。在这组实验中，将WO3的回收率和品位作为各模型的响应。跳汰机中WO3的最大回收率为:水流量为3.71 lit/min，频率为153rpm，粒度范围为-2360+1700µm。在此条件下，WO3品位为2.85%，回收率为94.33%。在甲板倾角为11度、进水流量为7 lit/min、洗涤流量为8 lit/min的振动台下，WO3的最大回收率为93.9%，品位为8.20%。在倾斜角度为3.45°，洗水量为3.16 lit/min时，MGS中WO3的回收率最高。MGS法WO3品位为4.2%，回收率为90.61%。

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Application of gravity separators for enrichment of South Chah-Palang tungsten ore

In the present study, the possibility of concentrating tungsten-copper vein ore in South Chah-Palang was examined using gravity separators including Jig Machine (-2360+600 µm), shaking table (-600+120 µm), and multi-gravity separator (MGS) (-120 µm). The representative sample contains 1.5% WO3 and 5.95% CuO. The main tungsten minerals were ferberite and wolframite and their appropriate liberation degree was approximately in the range of 250 µm. Box-Behenken and CCD response surface methods were applied to model and optimize jig machine and MGS results, respectively. Shaking table performance was modeled by full factorial design method. In Jig machine tests, the effects of water flow rate, frequency and feed particle size were investigated. Deck inclination, wash water, and feed water flow rate were operational parameters in shaking table. In the MGS testes, the effects of two parameters of tilt angle and wash water flow rate were inspected. In this set of experiments, WO3 recovery and grade were considered as responses of each model. The maximum recovery of WO3 in jig machine was obtained in water flow rate of 3.71 lit/min, frequency of 153rpm, and the particle size range of -2360+1700 µm. In this case, the grade and recovery of WO3 were 2.85% and 94.33%, respectively. The maximum WO3 recovery was 93.9% with grade of 8.20 % using shaking table in the deck inclination of 11 degree, feed water flow rate of 7 lit/min, and wash water flow rate of 8 lit/min. The maximum WO3 recovery in MGS attained with 3.45 degrees tilt angle and wash water rate of 3.16 lit/min. The grade and recovery of WO3 in the MGS method were 4.2% and 90.61%, respectively.

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来源期刊

International Journal of Mining and Geo-Engineering Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

12 weeks