Your search keyword '"three-phase foam slurry backfill (TFSB)"' showing total 2 results

1. CFD Simulation of Pipeline Transport Properties of Mine Tailings Three-Phase Foam Slurry Backfill.

Author

Xin Chen, Jian Zhou, Qiusong Chen, Xiuzhi Shi, and Yonggang Gou

Subjects

*COMPUTATIONAL fluid dynamics, *PIPELINE transportation, *METAL tailings, *SLURRY, *SLURRY pipelines, *RHEOLOGY

Abstract

A three-dimensional backfill pipeline transport model is developed using the computational fluid dynamics (CFD) technique, which is applied to study the pipeline transport properties of three-phase foam slurry backfill (TFSB). Based on rheological property tests and CFD simulations, the foam phase, pressure and velocity in the pipeline system are investigated using the CFD mixture method for different bubble volume fractions and bubble diameters. The simulation results indicate that TFSB can maintain a steady state during pipeline transport, experience a markedly reduced pipeline transport resistance, and exhibit better liquidity than conventional cement slurry. Furthermore, as the bubble volume fraction increases, the resistance of the pipeline decreases and the fluidity improves. By contrast, the bubble diameter has little effect on the transport properties of TFSB. The combined results of CFD simulations, slump tests and strength tests indicate that, when the bubble volume fraction is 15-20 vol %, TFSB can satisfy the necessary strength requirements and exhibit self-flowing transport. The CFD technique provides an intuitive and accurate basis for pipeline transport research and has the potential for wider application in studies of mine backfill. [ABSTRACT FROM AUTHOR]

Published

2017

2. CFD Simulation of Pipeline Transport Properties of Mine Tailings Three-Phase Foam Slurry Backfill

Author

Xiuzhi Shi, Xin Chen, Qiusong Chen, Yonggang Gou, and Jian Zhou

Subjects

lcsh:QE351-399.2, Materials science, Bubble, Pipeline (computing), 0211 other engineering and technologies, computational fluid dynamics (CFD) simulation, 02 engineering and technology, Computational fluid dynamics, 010502 geochemistry & geophysics, 01 natural sciences, 021105 building & construction, Geotechnical engineering, three-phase foam slurry backfill (TFSB), pipeline transportation properties, bubble volume fraction, 0105 earth and related environmental sciences, lcsh:Mineralogy, business.industry, Geology, Geotechnical Engineering and Engineering Geology, Slump, Pipeline transport, Volume (thermodynamics), Volume fraction, Slurry, business

Abstract

A three-dimensional backfill pipeline transport model is developed using the computational fluid dynamics (CFD) technique, which is applied to study the pipeline transport properties of three-phase foam slurry backfill (TFSB). Based on rheological property tests and CFD simulations, the foam phase, pressure, and velocity in the pipeline system are investigated using the CFD mixture method for different bubble volume fractions and bubble diameters. The simulation results indicate that TFSB can maintain a steady state during pipeline transport, experience a markedly reduced pipeline transport resistance, and exhibit better liquidity than conventional cement slurry. Furthermore, as the bubble volume fraction increases, the resistance of the pipeline decreases and the fluidity improves. By contrast, the bubble diameter has little effect on the transport properties of TFSB. The combined results of CFD simulations, slump tests, and strength tests indicate that, when the bubble volume fraction is 15–20 vol %, TFSB can satisfy the necessary strength requirements and exhibit self-flowing transport. The CFD technique provides an intuitive and accurate basis for pipeline transport research and has the potential for wider application in studies of mine backfill.

Published

2017