论文信息 - A finite element LES for high-Re flow in a short-elbow pipe with undisturbed inlet velocity

A finite element LES for high-Re flow in a short-elbow pipe with undisturbed inlet velocity

Abstract The paper is concerned with a large-eddy simulation (LES) for a high-Reynolds-number flow in a short-elbow pipe, which can potentially be employed in the primary piping system of the Japan Sodium-cooled Fast Reactor (JSFR). The basic performance of the LES is studied for an elbow pipe flow without turbulence at inlet boundary at Re = 1.2 × 10 6 by comparison with a flow observed in a 1/3-scale water experiment, where the flow disturbance at the pipe inlet is small. In setting up the computational conditions, special care was taken to ensure that the mesh subdivision was suitable for the simulation of the pipe flow through a theoretical consideration. We discuss the effects of the turbulence model (Smagorinsky model, WALE model) and the inlet velocity profile on the results. The mechanism of the pressure fluctuation and the origin of the fluid force are also discussed with the aid of spectral analysis and the visualization of essential hydraulic quantities.

[1] J. M. Clinch. Measurements of the wall pressure field at the surface of a smooth-walled pipe containing turbulent water flow , 1969 .

[2] F. Nicoud,et al. Subgrid-Scale Stress Modelling Based on the Square of the Velocity Gradient Tensor , 1999 .

[3] T. Hughes,et al. Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier-Stokes equations , 1990 .

[4] Mamoru Konomura,et al. Resistance and Fluctuating Pressures of a Large Elbow in High Reynolds Numbers , 2006 .

[5] Thomas J. R. Hughes,et al. The Stokes problem with various well-posed boundary conditions - Symmetric formulations that converge for all velocity/pressure spaces , 1987 .

[6] John B. Bell,et al. Approximate Projection Methods: Part I. Inviscid Analysis , 2000, SIAM J. Sci. Comput..

[7] Ali Turan,et al. Large-eddy Simulation of the Flow in a Low-Speed Centrifugal Compressor , 2008 .

[8] Jerry Westerweel,et al. Fully developed turbulent pipe flow: a comparison between direct numerical simulation and experiment , 1994, Journal of Fluid Mechanics.

[9] U. Piomelli,et al. Wall-layer models for large-eddy simulations , 2008 .

[10] Y. Eguchi. A new positive‐definite regularization of incompressible Navier–Stokes equations discretized with Q1/P0 finite element , 2003 .