Design Optimization Analysis of Venturi Tube for Medium Conveying in Strengthen Grinding Process

Xiao, Jinrui; Liang, Zhongwei; Liu, Xiaochu; Zhao, Zhuan; Xie, X. C.

doi:10.4236/eng.2021.138031

Cited by 5 publications

(2 citation statements)

References 28 publications

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“…The effects of varying the structural parameters of a Venturi tube, including the contraction ratio, the ratio of the throat section length to diameter, the diffusion angle and the inlet and outlet pressure difference, on fluid flow were analyzed by Zhang 31 using the Fluent v6.3 software. Finite element methods have been used for design optimization analysis of a Venturi tube for medium conveying in strengthen grinding processes 32 , while investigation of large over-reading of the Venturi flow rate in the feed water flow control system in the second circuit of a nuclear power plant was recently performed by Wang et al 9 with the aid of the software package ANSYS Fluent 17.0.…”

Section: Introductionmentioning

confidence: 99%

SPH simulations and experimental investigation of water flow through a Venturi meter of rectangular cross-section

Sigalotti,

Alvarado-Rodríguez,

Aragón

et al. 2023

Sci Rep

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The flow of water through a horizontal small-scale Venturi tube of rectangular cross-section is simulated using a modified version of the open-source code DualSPHysics, which is based on Smoothed Particle Hydrodynamics (SPH) methods. Water is simulated using the Murnaghan-Tait equation of state so that weak compressibility is allowed. The hydrodynamics is coupled to a Large-Eddy Simulation (LES) turbulence model. The convergence properties of SPH are improved by adopting a C$$^{2}$$ 2 Wendland function as the interpolation kernel, increased number of neighboring particles and non-reflective open boundary conditions at the outlet of the Venturi tube. The flow structure and differential pressure as well as the mainstream velocity profiles at different stations are compared with calibrated experimental data. A resolution independence test shows that good convergence to the experimental measurements is achieved using four million particles. At this resolution the simulations predict the experimental centerline velocity profile along the Venturi meter for a volumetric flow rate of ten liters per minutes (lpm) with a root-mean-square error of 4.3%. This error grows to 7.1% when the volumetric flow rate increases to 25 lpm. The predicted differential pressure matches the experimental data with errors varying from 1.4% (for 10 lpm) to 6.8% (for 25 lpm). Cross-sectional velocity profiles within the throat and divergent sections differ from the experimental measurements in less than 5.5%. In general, it is shown that the SPH model can provide an efficient and accurate method for recalibrating flow meters at moderately high Reynolds numbers instead of using costly experimental tests.

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Section: Introductionmentioning

confidence: 99%

SPH simulations and experimental investigation of water flow through a Venturi meter of rectangular cross-section

Sigalotti,

Alvarado-Rodríguez,

Aragón

et al. 2023

Sci Rep

View full text Add to dashboard Cite

show abstract

“…The effects of varying the structural parameters of a Venturi tube, including the contraction ratio, the ratio of the throat section length to diameter, the diffusion angle and the inlet and outlet pressure difference, on fluid flow were analised by Zhang [31] using the Fluent v6.3 software. Finite element methods have been used for design optimization analysis of a Venturi tube for medium conveying in strengthen grinding processes [32], while investigation of large over-reading of the Venturi flow rate in the feed water flow control system in the second circuit of a nuclear power plant was recently performed by Wang et al [9] with the aid of the software package ANSYS Fluent 17.0.…”

Section: Introductionmentioning

confidence: 99%

SPH simulations of water flow through a Venturi meter of rectangular cross-section: Comparison with experiments

Sigalotti,

Alvarado-Rodríguez,

Aragón

et al. 2023

Preprint

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We present three-dimensional simulations of water flow through a horizon- tal, small-scale Venturi tube of rectangular cross-section at Reynolds numbers between 13272 and 33180, using the method of Smoothed Particle Hydrody- namics (SPH) for solving the conservation laws. Water is simulated using the Murnaghan-Tait equation of state so that weak compressibility is allowed. The hydrodynamics is coupled to a Large-Eddy Simulation (LES) model for tur- bulence. Comparison with experimental measurements is provided in terms of centerline streamwise velocity and pressure profiles along the extent of the Ven- turi meter and cross-sectional velocity profiles at given stations. The numerical results are in good agreement with the experimental data, with root-mean square errors from 4.3% to 7.1% and from 1.4% to 6.8% for the centerline streamwise velocity (in units of m s−1) and differential pressure (in psi) along the Venturi tube, respectively, and ≲ 5.5% for the cross-sectional velocity profiles (in m s−1) within the throat and divergent sections. These errors increase with increasing volumetric flow rates. In general, it is shown that the SPH model can provide an efficient and accurate method for recalibrating flowmeters at moderately high Reynolds numbers instead of using costly experimental tests.

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Improving the transfer of dissolved oxygen in a biological Fe2+ oxidation process using a venturi jet as an intensive aeration system

Morell,

Guimerà,

Dorado

2024

Hydrometallurgy

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Design Optimization Analysis of Venturi Tube for Medium Conveying in Strengthen Grinding Process

Cited by 5 publications

References 28 publications

SPH simulations and experimental investigation of water flow through a Venturi meter of rectangular cross-section

SPH simulations and experimental investigation of water flow through a Venturi meter of rectangular cross-section

SPH simulations of water flow through a Venturi meter of rectangular cross-section: Comparison with experiments

Improving the transfer of dissolved oxygen in a biological Fe2+ oxidation process using a venturi jet as an intensive aeration system

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