Accuracy and comparison of standard k-ϵ with two variants of k-ω turbulence models in fluvial applications

Farhadi, Alireza; Mayrhofer, Arno; Tritthart, Michael; Glas, Martin; Habersack, Helmut

doi:10.1080/19942060.2017.1393006

Cited by 30 publications

(19 citation statements)

References 47 publications

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“…This is particularly evident for outer bank zones (dark shadow squares in the Figures 4-6). The applicability of the simplified equation of streamwise vorticity was already questioned with regard to the main cell of secondary flows for strongly curved channels [5,7]. The comparison presented in this work, therefore, reaffirms the inadequacy of this equation in order to estimate outer bank zone vorticities.…”

Section: Discussionsupporting

confidence: 68%

“…We already presented the simplified downstream vorticity equation (equation 1), which is widely applied in linear models [7]. Linear models do not consider nonlinear feedback between downstream velocity profiles and cells of secondary flow; this often leads to misestimation of vorticty and three-dimensionality in bends [5].…”

Section: Discussionmentioning

confidence: 99%

“…This equation is widely applied in classical hydraulic and engineering practices. Despite the wide usage and good results out of this equation in case of mild bends, there are important concerns about their applicability to the sharp bends [5,6,7]. Here, based on a term-by-term approach, the range of discrepancies between the simplified equation (i.e.…”

Section: Introductionmentioning

confidence: 99%

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Experiments on turbulence and near bank vorticities in an open channel sharp bend

et al. 2018

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Turbulence has a significant influence on fluvial processes. Especially in the sharp bends of geometrically complex natural streams, the interaction of turbulence and flow three-dimensionalities is considerable. Here, generation and evolution of streamwise vorticity in an open channel bend is assessed by means of term-by-term experimental investigations. As a result, corresponding mechanisms are shown and analysed. In addition, based on the homogeneity term of vorticity equation, the applicability of a widely used simplified equation of streamwise vorticity is discussed. The presented comparison reaffirms the inadequacy of the equation in order to estimate near bank vorticities.

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Section: Discussionsupporting

confidence: 68%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Experiments on turbulence and near bank vorticities in an open channel sharp bend

et al. 2018

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“…(1) the k-turbulence model. This is a two-parameter model that gives a general description of turbulence using two transport equations (Farhadi, Mayrhofer, Tritthart, Glas, & Habersack, 2018;Issakhov, Bulgakov, & Zhandaulet, 2019a, 2019b; (2) the k-ω turbulence model is a two-parameter general turbulence model, which is used as the closure for the Reynolds-averaged Navier-Stokes equations (Issakhov & Mashenkova, 2019); (3) The idea of the large eddy simulation method is that the velocity components are divided into the resolved and sub-grid parts. The resolved velocity is simulated by 'large' eddies, and the sub-grid part of the velocity is modeled by 'small scales'.…”

Section: The Turbulent Modelsmentioning

confidence: 99%

Numerical simulation of thermal pollution zones’ formations in the water environment from the activities of the power plant

Issakhov

Zhandaulet

2019

Engineering Applications of Computational Fluid Mechanics

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In this paper, obtained numerical results of the thermal pollution from the operation of a power plant are presented when using the Irtysh River as a natural water cooling system. A two-dimensional formulation by using the "shallow water" approximation is often used as a numerical solution of such problems. For two-dimensional numerical modeling, it is possible to determine the floating flow together with its characteristics of mixing heated water discharge from lateral projections to transverse flow. Furthermore, data from the experiment and numerical values of other authors were used in order to check the conformity of the computational results. The obtained numerical values gave good agreement comparing with data from the experiment, specially the jets trajectory, the recirculation zones size and the dimensionless excess temperature distribution. The obtained data as a result of numerical simulation can be used to study problems associated with the mixing of heated water discharged from the lateral direction into the transverse flow. Also these studies were conducted to study thermal contamination under different scenarios, the impact of heated water discharge from a power plant in the Irtysh River, and the areas of thermal pollution for different velocity scenarios were determined. ARTICLE HISTORY KEYWORDS Navier-Stokes equation;operational capacities of the power plant; finite volume method; the SIMPLE algorithm; thermal discharge; heat exchange

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“…Zhang, Jiang, & Ye, 2007), complex flows in irregular domains (Fadlun, Verzicco, Orlandi, & Mohd-Yusof, 2000;Udaykumar, Mittal, Rampunggoon, & Khanna, 2001), and turbulence (Kaligzin & Iaccarino, 2003;Yang & Balaras, 2006). Furthermore, hydraulic modeling case studies such as the diffusion prediction of pollutants (Chau & Jiang, 2002, asymmetric orifice design in a surge tank (Gabl & Righetti, 2018), turbulence simulation in fluvial applications (Farhadi, Mayrhofer, Tritthart, Glas, & Habersack, 2018), and the mathematical modeling of water quality rehabilitation (Wu & Chau, 2006) have all been conducted using advanced CFD methods.…”

Section: Introductionmentioning

confidence: 99%

Flow-induced vibration of a radial gate at various opening heights

Lee

Seong

Kang

2018

Engineering Applications of Computational Fluid Mechanics

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This study proposes a method for mitigating the flow-induced vibration of a radial sluice gate to ensure operational safety and long-term stability. To this end, a supplementary plate was attached to the lower rear surface of the gate and its effect on vibration reduction is investigated using a fluid-structure interaction (FSI) analysis. Specifically, a three-dimensional finite-element method (FEM) model of the gate partially submerged in water was constructed and then validated by comparing the numerical responses of the gate with experimental results under the conditions of steady-state discharge. The FSI analysis showed that the vertical vibration acceleration of the gate diminished by 70% after the supplementary plate was attached, thereby reducing the swirling strength calculated from the vortex shedding behind the gate. The Strouhal number describing the intensity of the gate vibration in the flowing fluid was also reduced by 57% after the supplementary plate was attached. The results of this study can be used to inform the design and development of radial gates, as well as maintenance plans for their economical operation. ARTICLE HISTORY

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Accuracy and comparison of standard k-ϵ with two variants of k-ω turbulence models in fluvial applications

Cited by 30 publications

References 47 publications

Experiments on turbulence and near bank vorticities in an open channel sharp bend

Experiments on turbulence and near bank vorticities in an open channel sharp bend

Numerical simulation of thermal pollution zones’ formations in the water environment from the activities of the power plant

Flow-induced vibration of a radial gate at various opening heights

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