Experimental Characterization of the Influence of Ore Drawing Parameters on Tailing Deposition

Experimental Characterization of the Influence of Ore Drawing Parameters on Tailing Deposition

The sedimentary structure is important for the engineering design, operation, and safety evaluation of tailing dams. For upstream-method tailing dams, tailing slurry flows and deposits in the pond and forms a complex dam structure. Ore drawing parameters (e.g., slurry concentration and flow rate) ha...

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Bibliographic Details
Published in:Geofluids 2022-04, Vol.2022, p.1-12
Main Authors: Duan, Zhijie, Shi, Hai, Li, Quanming, Liu, Qianhui, Yu, Yuzhen
Format: Article
Language:eng
Subjects:
China
Coefficients
Correlation coefficient
Correlation coefficients
Dam design
Dam engineering
Dam stability
Dams
Deposition
Design engineering
Drainage
Flow rates
Flow velocity
Flumes
Grain size
Hydraulics
Illustrations
Mathematical models
Mine tailings
Parameters
Particle size
Particle size distribution
Safety
Safety engineering
Sedimentary structures
Sediments
Sediments (Geology)
Size distribution
Slurries
Stability analysis
Step functions
Tailings
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Summary:The sedimentary structure is important for the engineering design, operation, and safety evaluation of tailing dams. For upstream-method tailing dams, tailing slurry flows and deposits in the pond and forms a complex dam structure. Ore drawing parameters (e.g., slurry concentration and flow rate) have significant influence on the sedimentary structure of tailing dams. However, there is a lack of unified and quantitative understanding of the complicated effects of ore drawing parameters on the deposition behaviour of tailings. In the present study, flume tests were applied to investigate the characteristics of the sedimentary structure of tailing dams. Seven ore drawing experiments were conducted to simulate different slurry concentrations and flow rates. The distribution of characteristic particle sizes d50 and d10 of sediment was obtained. Furthermore, considering two dominant features of particle size distribution, a mathematical model for the equation between characteristic particle size and deposition distance was established. The exponential part of this equation describes the decreasing trend of the characteristic particle size, and a smooth step function is introduced to characterize the abrupt decrease in particle size. The experimental data of d50 and d10 in all these test cases can be approximated by the equation with correlation coefficients R2 greater than 0.861. As the slurry concentration of ore drawing increases, the hydraulic sorting gradually weakens. The characteristic particle size distribution curves corresponding to a larger flow rate are generally located above those corresponding to a small flow rate, indicating that the larger the flow rate is, the coarser the sediment. This study provided useful information for the determination of ore drawing parameters in actual tailing dams. The mathematical model of tailings’ particle size distribution can be further used for refined modelling of tailing dams, so as to analyse the safety and stability of the dams.
ISSN:1468-8115
1468-8123