Experimental study on the hydraulic characteristics of tailings dams through large-scale particle velocimetry

Experimental study on the hydraulic characteristics of tailings dams through large-scale particle velocimetry

The sedimentary structure of tailings is of high significance to the engineering design and safety management of tailings dams. However, due to a lack of accurate measurement techniques for the flow field and hydrodynamic conditions of tailings reservoirs, it is challenging to study the complicated...

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Bibliographic Details
Published in:Environmental earth sciences 2022-06, Vol.81 (11), Article 308
Main Authors: Duan, Zhijie, Shi, Hai, Li, Quanming, Yu, Peng, Yu, Yuzhen
Format: Article
Language:eng
Subjects:
Biogeosciences
Dam design
Dam engineering
Dams
Deposition
Design engineering
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Exponential functions
Flow rates
Flow velocity
Fluid flow
Fluid mechanics
Flumes
Geochemistry
Geology
Hydrology/Water Resources
Iron
Laminar flow
Measurement techniques
Mine tailings
Original Article
Particle image velocimetry
Safety engineering
Safety management
Sedimentary structures
Slurries
Surface flow
Surface velocity
Tailings
Terrestrial Pollution
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Summary:The sedimentary structure of tailings is of high significance to the engineering design and safety management of tailings dams. However, due to a lack of accurate measurement techniques for the flow field and hydrodynamic conditions of tailings reservoirs, it is challenging to study the complicated sedimentary structure of tailings dams from the perspective of fluid mechanics. This study focuses on developing a large-scale particle image velocimetry (LSPIV) system in a 20 m long and 2 m wide deposition model flume to measure the flow field characteristics during the ore-drawing process accurately. According to the surface flow field characteristics measured by LSPIV, the tailings in the flume can be divided into three zones, namely the fan-shaped zone, channel zone, and laminar flow zone. Then, a simple method for estimating the flow rate of the slurry was proposed using the surface velocities measured by LSPIV. The flow rate of iron tailings slurry in the flume displays a decreasing trend along the flow direction. The variation of the flow rate of tailings slurry can be described by an exponential function. After the deposition of tailings slurry, the sedimentary characteristics of tailings are investigated, and the distribution of iron tailings particles is discussed in combination with the flow field of the tailings slurry. The LSPIV system can be applied to further deposition model tests of different slurry concentrations, discharge flow rates, and tailings compositions to investigate the effects of these factors on the tailings flow and deposition.
ISSN:1866-6280
1866-6299