大型浓密机两相流动与沉砂规律数值模拟研究1)

Kedi Yang; Baoxing Huang; Zemao Li; Shui Lan; Qingquan Liu; Xiaoliang Wang

doi:10.6052/1000-0879-23-113

大型浓密机两相流动与沉砂规律数值模拟研究¹⁾

Translated title of the contribution: NUMERICAL SIMULATION OF SOLID-LIQUID TWO-PHASE FLOW AND SEDIEMENTATION BEHAVIOR IN A LARGE-SCALE THICKENER1

Kedi Yang, Baoxing Huang, Zemao Li, Shui Lan, Qingquan Liu, Xiaoliang Wang^*

^*Corresponding author for this work

School of Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The complex structure and system parameter identification of large thickener are the key causes restricting the understanding of solid-liquid two-phase flow and sand settlement behavior. In this paper, we present a set of operational parameter identification methods for the fuzzy system of a large thickener based on the settling mechanism. The numerical model of 30 m thickener in Chehe beneficiation plant was established, of which the feed velocity, feed particle size distribution and feed volume fraction were identified in turn. A large number of numerical simulations point out that the characteristic structure of the feedwell of the 30 m large thickener in Chehe beneficiation plant makes its natural dilution function better, but the dynamic energy dissipation performance is poor, and there is still much room for improvement in the structure of the feedwell. Also, the sedimentation law of particles of each particle size are given.

Translated title of the contribution	NUMERICAL SIMULATION OF SOLID-LIQUID TWO-PHASE FLOW AND SEDIEMENTATION BEHAVIOR IN A LARGE-SCALE THICKENER1
Original language	Chinese (Traditional)
Pages (from-to)	41-54
Number of pages	14
Journal	Mechanics in Engineering
Volume	46
Issue number	1
DOIs	https://doi.org/10.6052/1000-0879-23-113
Publication status	Published - Feb 2024

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abstract = "The complex structure and system parameter identification of large thickener are the key causes restricting the understanding of solid-liquid two-phase flow and sand settlement behavior. In this paper, we present a set of operational parameter identification methods for the fuzzy system of a large thickener based on the settling mechanism. The numerical model of 30 m thickener in Chehe beneficiation plant was established, of which the feed velocity, feed particle size distribution and feed volume fraction were identified in turn. A large number of numerical simulations point out that the characteristic structure of the feedwell of the 30 m large thickener in Chehe beneficiation plant makes its natural dilution function better, but the dynamic energy dissipation performance is poor, and there is still much room for improvement in the structure of the feedwell. Also, the sedimentation law of particles of each particle size are given.",

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author = "Kedi Yang and Baoxing Huang and Zemao Li and Shui Lan and Qingquan Liu and Xiaoliang Wang",

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T1 - 大型浓密机两相流动与沉砂规律数值模拟研究1)

AU - Yang, Kedi

AU - Huang, Baoxing

AU - Li, Zemao

AU - Lan, Shui

AU - Liu, Qingquan

AU - Wang, Xiaoliang

PY - 2024/2

Y1 - 2024/2

N2 - The complex structure and system parameter identification of large thickener are the key causes restricting the understanding of solid-liquid two-phase flow and sand settlement behavior. In this paper, we present a set of operational parameter identification methods for the fuzzy system of a large thickener based on the settling mechanism. The numerical model of 30 m thickener in Chehe beneficiation plant was established, of which the feed velocity, feed particle size distribution and feed volume fraction were identified in turn. A large number of numerical simulations point out that the characteristic structure of the feedwell of the 30 m large thickener in Chehe beneficiation plant makes its natural dilution function better, but the dynamic energy dissipation performance is poor, and there is still much room for improvement in the structure of the feedwell. Also, the sedimentation law of particles of each particle size are given.

AB - The complex structure and system parameter identification of large thickener are the key causes restricting the understanding of solid-liquid two-phase flow and sand settlement behavior. In this paper, we present a set of operational parameter identification methods for the fuzzy system of a large thickener based on the settling mechanism. The numerical model of 30 m thickener in Chehe beneficiation plant was established, of which the feed velocity, feed particle size distribution and feed volume fraction were identified in turn. A large number of numerical simulations point out that the characteristic structure of the feedwell of the 30 m large thickener in Chehe beneficiation plant makes its natural dilution function better, but the dynamic energy dissipation performance is poor, and there is still much room for improvement in the structure of the feedwell. Also, the sedimentation law of particles of each particle size are given.

KW - large-scale thickener

KW - parameter identification

KW - sedimentation law

KW - solid-liquid two-phase flow

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大型浓密机两相流动与沉砂规律数值模拟研究¹⁾

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