A Three-Dimensional Heat and Momentum Transport Model for a Turbulent Cylinder Wake

H. L. Cao; J. G. Chen; Tongming Zhou; R. A. Antonia; Y. Zhou

doi:https://doi.org/10.1007/978-3-662-48868-3_30

A Three-Dimensional Heat and Momentum Transport Model for a Turbulent Cylinder Wake

H. L. Cao, J. G. Chen, Tongming Zhou, R. A. Antonia, Y. Zhou

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review

Abstract

All three components of the velocity and vorticity vectors, along with the fluctuating temperatures, were simultaneously measured, at nominally the same point in the flow, with an eight hotwire vorticity probe and four cold-wire probes. The phase-average data unveils that the spanwise velocity is greatly influenced by the rib-like structures. A 3-D conceptual model is proposed for heat and momentum transport, which complements the previous 2-D model and provides physical insight for the role the rib structures play.

Original language	English
Title of host publication	Fluid-Structure-Sound Interactions and Control
Editors	Y. Zhou, A.D. Lucey, Y. Liu, L. Huang
Publisher	Springer-Verlag London Ltd.
Pages	187-192
Number of pages	6
ISBN (Print)	978-3-662-48866-9
DOIs	https://doi.org/10.1007/978-3-662-48868-3_30
Publication status	Published - 2016
Event	3rd Symposium on Fluid-Structure-Sound Interactions and Control (FSSIC) - Perth, Australia Duration: 5 Jul 2015 → 9 Jul 2015

Publication series

Name	Lecture Notes in Mechanical Engineering
Publisher	SPRINGER-VERLAG BERLIN

Conference

Conference	3rd Symposium on Fluid-Structure-Sound Interactions and Control (FSSIC)
Country	Australia
City	Perth
Period	5/07/15 → 9/07/15

Keywords

Heat transport
Rib-like structure
Vorticity vector

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Cao, H. L., Chen, J. G., Zhou, T., Antonia, R. A., & Zhou, Y. (2016). A Three-Dimensional Heat and Momentum Transport Model for a Turbulent Cylinder Wake. In Y. Zhou, A. D. Lucey, Y. Liu, & L. Huang (Eds.), Fluid-Structure-Sound Interactions and Control (pp. 187-192). (Lecture Notes in Mechanical Engineering). Springer-Verlag London Ltd.. https://doi.org/10.1007/978-3-662-48868-3_30

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title = "A Three-Dimensional Heat and Momentum Transport Model for a Turbulent Cylinder Wake",

abstract = "All three components of the velocity and vorticity vectors, along with the fluctuating temperatures, were simultaneously measured, at nominally the same point in the flow, with an eight hotwire vorticity probe and four cold-wire probes. The phase-average data unveils that the spanwise velocity is greatly influenced by the rib-like structures. A 3-D conceptual model is proposed for heat and momentum transport, which complements the previous 2-D model and provides physical insight for the role the rib structures play.",

keywords = "Heat transport, Rib-like structure, Vorticity vector",

author = "Cao, {H. L.} and Chen, {J. G.} and Tongming Zhou and Antonia, {R. A.} and Y. Zhou",

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language = "English",

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publisher = "Springer-Verlag London Ltd.",

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booktitle = "Fluid-Structure-Sound Interactions and Control",

address = "Germany",

note = "3rd Symposium on Fluid-Structure-Sound Interactions and Control (FSSIC) ; Conference date: 05-07-2015 Through 09-07-2015",

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Cao, HL, Chen, JG, Zhou, T, Antonia, RA & Zhou, Y 2016, A Three-Dimensional Heat and Momentum Transport Model for a Turbulent Cylinder Wake. in Y Zhou, AD Lucey, Y Liu & L Huang (eds), Fluid-Structure-Sound Interactions and Control. Lecture Notes in Mechanical Engineering, Springer-Verlag London Ltd., pp. 187-192, 3rd Symposium on Fluid-Structure-Sound Interactions and Control (FSSIC), Perth, Australia, 5/07/15. https://doi.org/10.1007/978-3-662-48868-3_30

A Three-Dimensional Heat and Momentum Transport Model for a Turbulent Cylinder Wake. / Cao, H. L.; Chen, J. G.; Zhou, Tongming; Antonia, R. A.; Zhou, Y.

Fluid-Structure-Sound Interactions and Control. ed. / Y. Zhou; A.D. Lucey; Y. Liu; L. Huang. Springer-Verlag London Ltd., 2016. p. 187-192 (Lecture Notes in Mechanical Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review

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