Analysis of gas—solid coupling flow field in a vertical roller mill under different gas fluxes

Ze, Xiang Bo; Sun, Ye; Wang, W.; Nie, J. L.; Mao, Ken

doi:10.1177/09544089jpme373

Cited by 4 publications

(2 citation statements)

References 2 publications

(2 reference statements)

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“…Besides only using the motion-defined CFD simulations, CFD results can interact with structural simulation tools which improve the reality of the physical behave of the complete mechanism. This method known as FSI is becoming popular to solve more complex physical phenomenon as like forces, deformations and behaviours dynamic working conditions on rotary machines (Kovacevic et al 2011, Ze et al 2011, Tan et al 2015, Pei et al 2012, wing deformation at compressible flows Almedia (2013). and etc.…”

Section: Introductionmentioning

confidence: 99%

Fluid-Structure Interaction Simulation of Excess Flow Valve Movement at Different Operating Pressures and Gas Flow Rates

2021

JAFM

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Excess Flow Valves (EFV) for gas-stop systems is generally used in natural gas pipelines to prevent possible damages or destruction due to gas leakage. It can be used in a wide operating range of pressure, but the shutoff flow rate could be in various values at different pressures since natural gas can easily be compressed and can reach higher density. In this study, shut-off and nominal gas flow which effect on a spring force attached to an EFV system simulation by using Fluid Solid Interaction (FSI) strategy was studied. Furthermore, User Define Function (UDF) adapted to simulation to obtain the time-dependent deformation of the spring. The simulations were repeated at five different operating pressures (1-5 bar) with changing flow rates to show if EFV can shut-off the system or not. Results were validated against experimental data of the EFV to show the consistency of the FSI strategy. Moreover, detailed behaviour information of the EFV obtained by means.

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Section: Introductionmentioning

confidence: 99%

Fluid-Structure Interaction Simulation of Excess Flow Valve Movement at Different Operating Pressures and Gas Flow Rates

2021

JAFM

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“…To explore the influence of structural and operational parameters on the flow field, Ze et al [11] considered the effect of different gas fluxes on the gas-solid coupling flow field. e results showed that the gas flux is directly proportional to the pressure difference, and it is also pointed out that the structure has a greater influence on the flow field than the gas flux.…”

Section: Introductionmentioning

confidence: 99%

Effects of Blade Parameters on the Flow Field and Classification Performance of the Vertical Roller Mill via Numerical Investigations

Liu

Chen

Zhang³

et al. 2020

Mathematical Problems in Engineering

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The vertical roller mill is an important crushing and grading screening device widely used in many industries. Its classification efficiency and the pressure difference determine the entire producing capacity and power consumption, respectively, which makes them the two key indicators describing the mill performance. Based on the DPM (Discrete Phase Model) and continuous phase coupling model, the flow field characteristics in the vertical roller mill including the velocity and pressure fields and the discrete phase distributions had been analyzed. The influence of blade parameters like the shape, number, and rotating speed on the flow field and classification performance had also been comprehensively explored. The numerical simulations showed that there are vortices in many zones in the mill and the blades are of great significance to the mill performance. The blade IV not only results in high classification efficiency but also reduces effectively the pressure difference in the separator and also the whole machine. The conclusions of the flow field analysis and the blade effects on the classification efficiency and the pressure difference could guide designing and optimizing the equipment structure and the milling process, which is of great importance to obtain better overall performance of the vertical roller mill.

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Numerical investigation of a vertical roller mill using DEM-MBD coupling method

Yuan,

Chen,

Cao

et al. 2024

Minerals Engineering

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Analysis of gas—solid coupling flow field in a vertical roller mill under different gas fluxes

Cited by 4 publications

References 2 publications

Fluid-Structure Interaction Simulation of Excess Flow Valve Movement at Different Operating Pressures and Gas Flow Rates

Fluid-Structure Interaction Simulation of Excess Flow Valve Movement at Different Operating Pressures and Gas Flow Rates

Effects of Blade Parameters on the Flow Field and Classification Performance of the Vertical Roller Mill via Numerical Investigations

Numerical investigation of a vertical roller mill using DEM-MBD coupling method

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