Assessment of reynolds stress turbulence closures in the calculation of a transonic separated flow

Kim, Kwang‐Yong; Son, Jong Woo; Cho, Chang Ho

doi:10.1007/bf03185267

Cited by 3 publications

(2 citation statements)

References 17 publications

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“…The RSTM approach allows for completely analyzing the influence of particles on the longitudinal, radial, and azimuthal components of the turbulence kinetic energy, including possible modifications of the cross-correlation velocity moments. Several studies based on the RSTM approach produced accurate results and demonstrated the ability of the method to simulate complex flows [12,13], as well as turbulent transonic [14], supersonic [15], and viscoelastic flows [16]. Taulbee et al [12] used the RSTM approach to calculate the particle-laden shear flow by applying the direct numerical simulation (DNS) and the small Reynolds number was used in their simulation, Re = 952.…”

Section: Introductionmentioning

confidence: 99%

Eulerian–Eulerian RSTM-PDF Modeling of Turbulent Particulate Flow

et al. 2023

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A novel 3D computational model was developed for the turbulent particulate two-phase flow simulation in the rectangular channel. The model is based on the Eulerian approach applied to 3D Reynolds-averaged Navier–Stokes modeling and statistical Probability Distribution Function method. The uniqueness of the method lies in the direct calculation of normal and transverse components of the Reynolds stresses for both gas and particles. Two cases were examined: a conventional channel flow and grid-generated turbulence flow. The obtained numerical results have been verified and validated by the experimental data, received from the turbulent particle dispersion test. The computed values of the particles’ turbulent dispersion and the maximum value of the particulate concentration distribution show good agreement with the experimental results. The examples are ranged from coal and other bulk material pneumatic transport, vertical fluidized beds, coal gasifiers, and chemical reactors.

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Section: Introductionmentioning

confidence: 99%

Eulerian–Eulerian RSTM-PDF Modeling of Turbulent Particulate Flow

et al. 2023

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“…A number of studies based on the RSTM approach showed its good performance and capability for simulation of the complicated flows [3], as well for the turbulent subsonic [4] and supersonic flows [5] and viscoelastic flows [6].…”

Section: Introductionmentioning

confidence: 99%

Two-Fluid RANS-RSTM-PDF Model for Turbulent Particulate Flows

Lauk¹,

Kartushinsky²,

Hussainov³

et al. 2016

Numerical Simulation - From Brain Imaging to Turbulent Flows

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A novel three-dimensional (3D) model based on Reynolds turbulence stress model (RSTM) closure of equations of carrier and particulate phases was elaborated for channel turbulent flows. The essence of the model is the direct calculation of normal and shear components of the Reynolds stresses for the particulate phase similar to the carrier fluid. The model is based on the Eulerian approach, which is applied for the 3D RANS modeling of the carrier flow and the particulate phase and the statistical probability dense function (PDF) approach focusing on the mathematical description of the second moments of the particulate phase.The obtained numerical results have been verified and validated by comparison with experimental data obtained on turbulent dispersion of solid particles ejected from point source for turbulent uniform linear shear flow. Two cases of spatial orientation of shear of the flow mean velocity were examined: in the direction of gravity and in the direction perpendicular to gravity. Numerical data on turbulent dispersion of particles and spatial displacement of the maximum value of the concentration distribution show satisfactory agreement with experimental results.

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A review of hybrid RANS-LES methods for turbulent flows: Concepts and applications

Stefan

2020

Progress in Aerospace Sciences

117

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Assessment of reynolds stress turbulence closures in the calculation of a transonic separated flow

Cited by 3 publications

References 17 publications

Eulerian–Eulerian RSTM-PDF Modeling of Turbulent Particulate Flow

Eulerian–Eulerian RSTM-PDF Modeling of Turbulent Particulate Flow

Two-Fluid RANS-RSTM-PDF Model for Turbulent Particulate Flows

A review of hybrid RANS-LES methods for turbulent flows: Concepts and applications

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