Extensive characterisation of a high Reynolds number decelerating boundary layer using advanced optical metrology

C. Cuvier; S. Srinath; M. Stanislas; J. M. Foucaut; J. P. Laval; C. J. Kähler; R. Hain; S. Scharnowski; A. Schröder; R. Geisler; J. Agocs; A. Röse; C. Willert; J. Klinner; O. Amili; C. Atkinson; J. Soria

doi:10.1080/14685248.2017.1342827

Extensive characterisation of a high Reynolds number decelerating boundary layer using advanced optical metrology

C. Cuvier, S. Srinath, M. Stanislas, J. M. Foucaut, J. P. Laval, C. J. Kähler, R. Hain, S. Scharnowski, A. Schröder, R. Geisler, J. Agocs, A. Röse, C. Willert, J. Klinner, O. Amili, C. Atkinson, J. Soria

Mechanical & Aerospace Engineering

Research output: Contribution to journal › Article › Research › peer-review

35 Citations (Scopus)

Abstract

Over the last years, the observation of large-scale structures in turbulent boundary layer flows has stimulated intense experimental and numerical investigations. Nevertheless, partly due to the lack of comprehensive experimental data at sufficiently high Reynolds number, our understanding of turbulence near walls, especially in decelerating situations, is still quite limited. The aim of the present contribution is to combine the equipment and skills of several teams to perform a detailed characterisation of a large-scale turbulent boundary layer under adverse pressure gradient. Extensive particle image velocimetry (PIV) measurements are performed, including a set-up with 16 sCMOS cameras allowing the characterisation of the boundary layer on 3.5 m, stereo PIV and high resolution near wall measurements. In this paper, detailed statistics are presented and discussed, boundary conditions are carefully characterised, making this experiment a challenging test case for numerical simulation.

Original language	English
Pages (from-to)	929-972
Number of pages	44
Journal	Journal of Turbulence
Volume	18
Issue number	10
DOIs	https://doi.org/10.1080/14685248.2017.1342827
Publication status	Published - 2017

Keywords

adverse pressure gradient
PIV
Turbulent boundary layers

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Cuvier, C., Srinath, S., Stanislas, M., Foucaut, J. M., Laval, J. P., Kähler, C. J., Hain, R., Scharnowski, S., Schröder, A., Geisler, R., Agocs, J., Röse, A., Willert, C., Klinner, J., Amili, O., Atkinson, C., & Soria, J. (2017). Extensive characterisation of a high Reynolds number decelerating boundary layer using advanced optical metrology. Journal of Turbulence, 18(10), 929-972. https://doi.org/10.1080/14685248.2017.1342827

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title = "Extensive characterisation of a high Reynolds number decelerating boundary layer using advanced optical metrology",

abstract = "Over the last years, the observation of large-scale structures in turbulent boundary layer flows has stimulated intense experimental and numerical investigations. Nevertheless, partly due to the lack of comprehensive experimental data at sufficiently high Reynolds number, our understanding of turbulence near walls, especially in decelerating situations, is still quite limited. The aim of the present contribution is to combine the equipment and skills of several teams to perform a detailed characterisation of a large-scale turbulent boundary layer under adverse pressure gradient. Extensive particle image velocimetry (PIV) measurements are performed, including a set-up with 16 sCMOS cameras allowing the characterisation of the boundary layer on 3.5 m, stereo PIV and high resolution near wall measurements. In this paper, detailed statistics are presented and discussed, boundary conditions are carefully characterised, making this experiment a challenging test case for numerical simulation.",

keywords = "adverse pressure gradient, PIV, Turbulent boundary layers",

author = "C. Cuvier and S. Srinath and M. Stanislas and Foucaut, {J. M.} and Laval, {J. P.} and K{\"a}hler, {C. J.} and R. Hain and S. Scharnowski and A. Schr{\"o}der and R. Geisler and J. Agocs and A. R{\"o}se and C. Willert and J. Klinner and O. Amili and C. Atkinson and J. Soria",

year = "2017",

doi = "10.1080/14685248.2017.1342827",

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Cuvier, C, Srinath, S, Stanislas, M, Foucaut, JM, Laval, JP, Kähler, CJ, Hain, R, Scharnowski, S, Schröder, A, Geisler, R, Agocs, J, Röse, A, Willert, C, Klinner, J, Amili, O, Atkinson, C & Soria, J 2017, 'Extensive characterisation of a high Reynolds number decelerating boundary layer using advanced optical metrology', Journal of Turbulence, vol. 18, no. 10, pp. 929-972. https://doi.org/10.1080/14685248.2017.1342827

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AU - Cuvier, C.

AU - Srinath, S.

AU - Stanislas, M.

AU - Foucaut, J. M.

AU - Laval, J. P.

AU - Kähler, C. J.

AU - Hain, R.

AU - Scharnowski, S.

AU - Schröder, A.

AU - Geisler, R.

AU - Agocs, J.

AU - Röse, A.

AU - Willert, C.

AU - Klinner, J.

AU - Amili, O.

AU - Atkinson, C.

AU - Soria, J.

PY - 2017

Y1 - 2017

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AB - Over the last years, the observation of large-scale structures in turbulent boundary layer flows has stimulated intense experimental and numerical investigations. Nevertheless, partly due to the lack of comprehensive experimental data at sufficiently high Reynolds number, our understanding of turbulence near walls, especially in decelerating situations, is still quite limited. The aim of the present contribution is to combine the equipment and skills of several teams to perform a detailed characterisation of a large-scale turbulent boundary layer under adverse pressure gradient. Extensive particle image velocimetry (PIV) measurements are performed, including a set-up with 16 sCMOS cameras allowing the characterisation of the boundary layer on 3.5 m, stereo PIV and high resolution near wall measurements. In this paper, detailed statistics are presented and discussed, boundary conditions are carefully characterised, making this experiment a challenging test case for numerical simulation.

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Extensive characterisation of a high Reynolds number decelerating boundary layer using advanced optical metrology

Abstract

Keywords

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