论文信息 - Methods for Computationally Efficient Structured CFD Simulations of Complex Turbomachinery Flows

Methods for Computationally Efficient Structured CFD Simulations of Complex Turbomachinery Flows

This research presents more efficient computational methods by which to perform multiple-block structured CFD simulations of turbomachinery, thus enabling higher-fidelity solutions of complicated geometries and their associated flows. This computational framework offers flexibility in allocating resources to balance process count and wall-clock computation time, while facilitating research interests of simulating axial compressor stall inception with more complete gridding of the flow passages and rotor tip clearance regions than is typically practiced with structured codes. The scheme presented herein expedites CFD simulation of previously impractical geometries and flows. These methods are validated and demonstrate improved computational efficiency when applied to complicated geometries and flows.

Jen-Ping Chen | Gregory P. Herrick

[1] J. Zhu,et al. CMOTT Turbulence Module for NPARC , 1997 .

[2] David L. Whitfield,et al. Navier-Stokes calculations for the unsteady flowfield of turbomachinery , 1993 .

[3] D. Whitfield,et al. Discretized Newton-relaxation solution of high resolution flux-difference split schemes , 1991 .

[4] J. P. Chen,et al. A Parallel Flow Solver for Unsteady Multiple Blade Row Turbomachinery Simulations , 2001 .

[5] Jen‐Ping Chen,et al. Comparison of time-accurate calculations for the unsteady interaction in turbomachinery stage , 1998 .

[6] M.D. Hathaway,et al. Time accurate unsteady simulation of the stall inception process in the compression system of a US army helicopter gas turbine engine , 2003, 2003 User Group Conference. Proceedings.

[7] Michael D. Hathaway,et al. Pre-Stall Behavior of a Transonic Axial Compressor Stage Via Time-Accurate Numerical Simulation , 2013 .

[8] Gary J. Skoch,et al. Numerical Simulation of Stall and Stall Control in Axial and Radial Compressors , 2006 .

[9] Gregory Paul Herrick. Facilitating higher-fidelity simulations of axial compressor instability and other turbomachinery flow conditions , 2008 .