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Stabilization of explicit flow solvers using a proper-orthogonal- decomposition technique

Publication ,  Conference
Ekici, K; Hall, KC; Huang, H; Thomas, JP
Published in: AIAA Journal
May 1, 2013

A new numerical technique for the stabilization of explicit computational-fluid-dynamic solvers is presented. When using computational-fluid-dynamic codes to solve practical problems one sometimes finds the solution fails to converge due to the presence of a small number of eigenvalues of the flow solver outside the unit circle. In this paper we use the proper orthogonal decomposition technique to estimate the unstable eigenvalues and eigenmodes of the flow solver as the solution diverges for linear problems or exhibits limit-cycle oscillations for nonlinear problems. We use the resulting eigeninformation to construct a preconditioner that repositions the unstable eigenvalues from outside the unit circle to a point inside the unit circle close to the origin resulting in a stable flow solver. In this work the proposed method is applied to a nonlinear steady cascade solver. However, the technique can be easily applied to external flow solvers and to unsteady frequency-domain (time-linearized and harmonic-balance) flow solvers. Copyright © 2012 by Kivanc Ekici, Kenneth C. Hall, Huang Huang and Jeffrey P. Thomas. Published by the American Institute of Aeronautics and Astronautics, Inc.

Duke Scholars

Published In

AIAA Journal

DOI

ISSN

0001-1452

Publication Date

May 1, 2013

Volume

51

Issue

5

Start / End Page

1095 / 1104

Related Subject Headings

  • Aerospace & Aeronautics
  • 4012 Fluid mechanics and thermal engineering
  • 4001 Aerospace engineering
  • 0913 Mechanical Engineering
  • 0905 Civil Engineering
  • 0901 Aerospace Engineering
 

Citation

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Ekici, K., Hall, K. C., Huang, H., & Thomas, J. P. (2013). Stabilization of explicit flow solvers using a proper-orthogonal- decomposition technique. In AIAA Journal (Vol. 51, pp. 1095–1104). https://doi.org/10.2514/1.J051945
Ekici, K., K. C. Hall, H. Huang, and J. P. Thomas. “Stabilization of explicit flow solvers using a proper-orthogonal- decomposition technique.” In AIAA Journal, 51:1095–1104, 2013. https://doi.org/10.2514/1.J051945.
Ekici K, Hall KC, Huang H, Thomas JP. Stabilization of explicit flow solvers using a proper-orthogonal- decomposition technique. In: AIAA Journal. 2013. p. 1095–104.
Ekici, K., et al. “Stabilization of explicit flow solvers using a proper-orthogonal- decomposition technique.” AIAA Journal, vol. 51, no. 5, 2013, pp. 1095–104. Scopus, doi:10.2514/1.J051945.
Ekici K, Hall KC, Huang H, Thomas JP. Stabilization of explicit flow solvers using a proper-orthogonal- decomposition technique. AIAA Journal. 2013. p. 1095–1104.
Journal cover image

Published In

AIAA Journal

DOI

ISSN

0001-1452

Publication Date

May 1, 2013

Volume

51

Issue

5

Start / End Page

1095 / 1104

Related Subject Headings

  • Aerospace & Aeronautics
  • 4012 Fluid mechanics and thermal engineering
  • 4001 Aerospace engineering
  • 0913 Mechanical Engineering
  • 0905 Civil Engineering
  • 0901 Aerospace Engineering