Modeling for isothermal and cryogenic cavitation
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Publication:846727
DOI10.1016/j.ijheatmasstransfer.2009.09.005zbMath1180.80047OpenAlexW2072790456MaRDI QIDQ846727
Publication date: 9 February 2010
Published in: International Journal of Heat and Mass Transfer (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijheatmasstransfer.2009.09.005
Navier-Stokes equations for incompressible viscous fluids (76D05) (k)-(varepsilon) modeling in turbulence (76F60)
Related Items (12)
Lagrangian-based investigation of multiphase flows by finite-time Lyapunov exponents ⋮ Large eddy simulation of turbulent vortex-cavitation interactions in transient sheet/cloud cavitating flows ⋮ Investigations of empirical coefficients of cavitation and turbulence model through steady and unsteady turbulent cavitating flows ⋮ Application of the two-phase three-component computational model to predict cavitating flow in a centrifugal pump and its validation ⋮ Modeling of turbulent, isothermal and cryogenic cavitation under attached conditions ⋮ Turbulence and cavitation models for time-dependent turbulent cavitating flows ⋮ Assessment of an improved turbulence model in simulating the unsteady flows around a D-shaped cylinder and an open cavity ⋮ Surrogate-based modeling and dimension reduction techniques for multi-scale mechanics problems ⋮ Modeling and Computation of Unsteady Cavitating Flows Involved Thermal Effects Using Partially Averaged Navier–Stokes Method ⋮ The correction and evaluation of cavitation model considering the thermodynamic effect ⋮ Robust analysis of cavitating flows in the Venturi tube ⋮ Development and validation of a homogeneous flow model for simulating cavitation in cryogenic fluids
Uses Software
Cites Work
- A pressure-based method for turbulent cavitating flow computations
- The numerical computation of turbulent flows
- A preconditioned Navier-Stokes method for two-phase flows with application to cavitation prediction
- Interfacial dynamics-based modelling of turbulent cavitating flows, Part-1: Model development and steady-state computations
- Interfacial dynamics-based modelling of turbulent cavitating flows, Part-2: Time-dependent computations
- Surrogate model-based strategy for cryogenic cavitation model validation and sensitivity evaluation
- Cavitation and the state of stress in a flowing liquid
- Computational Techniques for Complex Transport Phenomena
- Cavitation and Bubble Dynamics
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