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2022 | OriginalPaper | Chapter

Modern Analysis for Complex and Nonlinear Unsteady Flows in Turbomachinery

Author : Kenneth Hall

Published in: A Modern Course in Aeroelasticity

Publisher: Springer International Publishing

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Abstract

The field of turbomachinery is undergoing major advances in aeroelasticity and this chapter provides an overview of these new developments in the key enabling methodology of unsteady aerodynamic modeling. Also see the earlier discussions in chapters “Aeroelasticity in Turbomachines” and “Modeling of Fluid-Structure Interaction.”

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Portions of this chapter were excepted from prior papers written by the author and his students, including W. S. Clark, C.B. Lorence, P. D. Silkowski, and D. M. Voytovich. Their contributors are gratefully acknowledged.

Portions of this section originally appeared in [20] and are reprinted here with permission from ASME.

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Hall KC, Crawley EF (1989) Calculation of unsteady flows in turbomachinery using the linearized Euler equations. AIAA J 27(6):777–787

Clark W (1992) Prediction of unsteady flows in turbomachinery using the linearized Euler equations on deforming grids. Masters thesis, Duke University

Holmes DG, Chuang HA (1993) 2D linearized harmonic Euler flow analysis for flutter and forced response. In: Atassi HM (ed) Unsteady aerodynamics, aeroacoustics, and aeroelasticity of turbomachines and propellers. Springer, New York

Kahl G, Klose A (1993) Time linearized euler calculations for unsteady quasi-3D cascade flows. In: Atassi HM (ed) Unsteady aerodynamics, aeroacoustics, and aeroelasticity of turbomachines and propellers. Springer, New York

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Hall KC, Clark WS, Lorence CB (1994) A linearized Euler analysis of unsteady transonic flows in turbomachinery. J Turbomach 116:477488

Lorence CB (1991) An investigation of three-dimensional unsteady flows in turbomachinery using the linearized Euler equations. Masters thesis, Duke University

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Hall KC, Lorence CB (1993) Calculation of three-dimensional unsteady flows in turbomachinery using the linearized harmonic Euler equations. J Turbomach 115(4):800809

11.

Holmes D, Mitchell B, Lorence CB (1997) Three-dimensional linearized Navier-Stokes calculations for flutter and forced response. Presented at the 8th international symposium on unsteady aerodynamics, aeroacoustics, and aeroelasticity of turbomachines and propellers, Stockholm, Sweden

12.

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13.

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14.

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20.

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Hall KC, Silkowski PD (1997) The influence of neighboring blade rows on the unsteady aerodynamic response of cascades. J Turbomach 119(1):8395CrossRef

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Gopinath A, Van Der Weide E, Alonso J, Jameson A, Ekici K, Hall KC (2007) Three-dimensional unsteady multi-stage turbomachinery simulations using the harmonic balance technique, In 45th AIAA aerospace sciences meeting and exhibit, January, p 892

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32.

Hall KC, Thomas JP, Clark WS (2002) Computation of unsteady nonlinear flows in cascades using a harmonic balance technique. AIAA J 40(5):879886

33.

Thomas JP, Dowell EH, Hall KC (2002) Nonlinear inviscid aerodynamic effects on transonic divergence, flutter and limit cycle oscillations. AIAA J 40(4):638646

34.

Hall KC, Thomas JP, Ekici K, Voytovich DM (2003) Frequency domain techniques for complex and nonlinear flows in turbomachinery. AIAA paper 2003–3998

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Sicot F, Puigt G, Montagnac M (2008) Block-Jacobi implicit algorithms for the time Spectral method. AIAA J 46(12):3080–3089

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37.

Su X, Yuan X (2009) Implicit solution of time spectral method for periodic unsteady flows. Int J Numer Methods Fluids 63:860–870

38.

Thomas JP, Custer CH, Dowell EH, Hall KC, Corre C (2013) Compact implementation strategy for a harmonic balance method within implicit flow solvers. AIAA J 51(6):1374–1381CrossRef

Title: Modern Analysis for Complex and Nonlinear Unsteady Flows in Turbomachinery
Author: Kenneth Hall
Publisher: Springer International Publishing
Book: A Modern Course in Aeroelasticity
Print ISBN: 978-3-030-74235-5

Electronic ISBN: 978-3-030-74236-2

Copyright Year: 2022
DOI: https://doi.org/10.1007/978-3-030-74236-2_13

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