Bootstrapping in Turbulence Computation

Ferziger, Joel H.

doi:10.1007/978-3-642-82908-6_2

Joel H. Ferziger⁵

Part of the book series: Lecture Notes in Engineering ((LNENG,volume 24))

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Abstract

Classification schemes for methods for predicting turbulent flows were presented by Kline etal. (1978) and Ferziger etal. (1981); this scheme is given in Table 1. At each level in the scheme, a single method or model is more broadly applicable than a method at the preceding levels. This allows data for one flow to be used to predict other flows, an advantage of obvious importance. The primary disadvantage of the higher levels is that they cost more than the preceding levels; the data required to fix a model or correlation is also more difficult to acquire.

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References

Bertoglio, J. P., and Mathieu, J., “Study of Subgrid Models for Sheared Turbulence,” Proc. Fourth Symp. on Turb. Shear Flows, Karlsruhe, 1983.
Google Scholar
Chollet, J. P., “Two Point Closures as a Subgrid Scale Modeling for Large Eddy Simulations,” Proc. Fourth Symp. on Turb. Shear Flows, Karlsruhe, 1983.
Google Scholar
Deardorff, J. W., “A Numerical Study of Three-Dimensional Turbulent Channel Flow at Large Reynolds Number,” J. Fluid Mech., 41, 452, 1970.
Article Google Scholar
Ferziger, J. H., Bardina, J., and Allen, G., “Overview of Taxonomy: Morphology of the Flows and Computational Methods,” in Kline etal. (1981), Vol. 2.
Google Scholar
Kawamura, T., and Kuwahara, K., “Computation of High Reynolds Number Flow around a Circular Cylinder with Surface Roughness,” AIAA paper 84 - 03 10, 1984.
Google Scholar
Kline, S. J., Ferziger, J. H., and Johnston, J. P., “Turbulent Flow Computation-Status and Ten Year Outlook.” J. Fluids Engr., 1978.
Google Scholar
Lee, M. J. and Reynolds, W. C. C., “Simulation of Homogeneous Turbulence and its Application to Turbulence Modeling,” Rept. TF-22, Dept. of Mech. Engr., Stanford Univ., 1985.
Google Scholar
Schumann, U, U., “Ein Untersuchung Uber der Berechnung der Turbulent Strömungen im Platten-und Ringspalt-Kanelen,” Dissertation, Karlsruhe, 1973.
Google Scholar
Smagorinsky, J., “General Circulation Experiments with the Primitive Equations. I. The Basic Experiment,” Mon. Wea. Rev. t 91, 99, 1963.
Article Google Scholar
Wu, C. T., Ferziger, J. H. and Chapman, ü. R. R., “Simulation and Modeling of Compressed Turbulence,” Rept. TF-21, Dept. of Mech. Engr., Stanford Univ., 1985.
Google Scholar

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Authors and Affiliations

Department of Mechanical Engineering, Stanford University, Stanford, CA, USA, 94305
Joel H. Ferziger

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Joel H. Ferziger
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Editors and Affiliations

Institute of Space and Astronautical Science, Tokyo, Japan
Kunio Kuwahara
Dept. of Mathematics, Naval Postgraduate School, Monterey, CA, USA
Raul Mendez
Applied and Computational Mathematics, Princeton University, Princeton, NJ, USA
Steven A. Orszag

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Ferziger, J.H. (1986). Bootstrapping in Turbulence Computation. In: Kuwahara, K., Mendez, R., Orszag, S.A. (eds) Supercomputers and Fluid Dynamics. Lecture Notes in Engineering, vol 24. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-82908-6_2

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DOI: https://doi.org/10.1007/978-3-642-82908-6_2
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-17051-8
Online ISBN: 978-3-642-82908-6
eBook Packages: Springer Book Archive

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