Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect

Y. Yu; L. X. Zhou

doi:10.1115/fedsm2003-45749

Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect

Y. Yu^*, L. X. Zhou

^*Corresponding author for this work

Tsinghua University

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

1 Citation (Scopus)

Abstract

The presently developed two-phase turbulence models under-predict the gas turbulent fluctuation, because their turbulence modification models cannot totally reflect the effect of particles. In this paper, a two-time-scale dissipation model of turbulence modification, including a two-time-scale dissipation model for the two-phase velocity correlation and a two-time-scale dissipation model for the dissipation rate of gas turbulent kinetic energy, is proposed and used to simulate swirling gasparticle flows with a swirl number of 0.47. Besides, a gas turbulence augmentation model accounting for the finite-size particle wake effect in the gas Reynolds stress equation is proposed. The proposed turbulence modification models are used to simulate two-phase pipe flows. It can predict not only the turbulence reduction by small particles but also the turbulence enhancement by large particles.

Original language	English
Title of host publication	Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference
Subtitle of host publication	Volume 2, Part A, Symposia
Editors	A. Ogut, Y. Tsuji, M. Kawahashi
Publisher	American Society of Mechanical Engineers
Pages	583-588
Number of pages	6
ISBN (Print)	0791836967, 9780791836965
DOIs	https://doi.org/10.1115/fedsm2003-45749
Publication status	Published - 2003
Externally published	Yes
Event	4th ASME/JSME Joint Fluids Engineering Conference - Honolulu, HI, United States Duration: 6 Jul 2003 → 10 Jul 2003

Publication series

Name	Proceedings of the ASME/JSME Joint Fluids Engineering Conference
Volume	2 A

Conference

Conference	4th ASME/JSME Joint Fluids Engineering Conference
Country/Territory	United States
City	Honolulu, HI
Period	6/07/03 → 10/07/03

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10.1115/fedsm2003-45749

Cite this

Yu, Y., & Zhou, L. X. (2003). Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect. In A. Ogut, Y. Tsuji, & M. Kawahashi (Eds.), Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference: Volume 2, Part A, Symposia (pp. 583-588). (Proceedings of the ASME/JSME Joint Fluids Engineering Conference; Vol. 2 A). American Society of Mechanical Engineers. https://doi.org/10.1115/fedsm2003-45749

Yu, Y. ; Zhou, L. X. / Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect. Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference: Volume 2, Part A, Symposia. editor / A. Ogut ; Y. Tsuji ; M. Kawahashi. American Society of Mechanical Engineers, 2003. pp. 583-588 (Proceedings of the ASME/JSME Joint Fluids Engineering Conference).

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title = "Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect",

abstract = "The presently developed two-phase turbulence models under-predict the gas turbulent fluctuation, because their turbulence modification models cannot totally reflect the effect of particles. In this paper, a two-time-scale dissipation model of turbulence modification, including a two-time-scale dissipation model for the two-phase velocity correlation and a two-time-scale dissipation model for the dissipation rate of gas turbulent kinetic energy, is proposed and used to simulate swirling gasparticle flows with a swirl number of 0.47. Besides, a gas turbulence augmentation model accounting for the finite-size particle wake effect in the gas Reynolds stress equation is proposed. The proposed turbulence modification models are used to simulate two-phase pipe flows. It can predict not only the turbulence reduction by small particles but also the turbulence enhancement by large particles.",

author = "Y. Yu and Zhou, {L. X.}",

year = "2003",

doi = "10.1115/fedsm2003-45749",

language = "English",

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series = "Proceedings of the ASME/JSME Joint Fluids Engineering Conference",

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editor = "A. Ogut and Y. Tsuji and M. Kawahashi",

booktitle = "Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference",

note = "4th ASME/JSME Joint Fluids Engineering Conference ; Conference date: 06-07-2003 Through 10-07-2003",

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Yu, Y & Zhou, LX 2003, Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect. in A Ogut, Y Tsuji & M Kawahashi (eds), Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference: Volume 2, Part A, Symposia. Proceedings of the ASME/JSME Joint Fluids Engineering Conference, vol. 2 A, American Society of Mechanical Engineers, pp. 583-588, 4th ASME/JSME Joint Fluids Engineering Conference, Honolulu, HI, United States, 6/07/03. https://doi.org/10.1115/fedsm2003-45749

Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect. / Yu, Y.; Zhou, L. X.
Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference: Volume 2, Part A, Symposia. ed. / A. Ogut; Y. Tsuji; M. Kawahashi. American Society of Mechanical Engineers, 2003. p. 583-588 (Proceedings of the ASME/JSME Joint Fluids Engineering Conference; Vol. 2 A).

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

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N2 - The presently developed two-phase turbulence models under-predict the gas turbulent fluctuation, because their turbulence modification models cannot totally reflect the effect of particles. In this paper, a two-time-scale dissipation model of turbulence modification, including a two-time-scale dissipation model for the two-phase velocity correlation and a two-time-scale dissipation model for the dissipation rate of gas turbulent kinetic energy, is proposed and used to simulate swirling gasparticle flows with a swirl number of 0.47. Besides, a gas turbulence augmentation model accounting for the finite-size particle wake effect in the gas Reynolds stress equation is proposed. The proposed turbulence modification models are used to simulate two-phase pipe flows. It can predict not only the turbulence reduction by small particles but also the turbulence enhancement by large particles.

AB - The presently developed two-phase turbulence models under-predict the gas turbulent fluctuation, because their turbulence modification models cannot totally reflect the effect of particles. In this paper, a two-time-scale dissipation model of turbulence modification, including a two-time-scale dissipation model for the two-phase velocity correlation and a two-time-scale dissipation model for the dissipation rate of gas turbulent kinetic energy, is proposed and used to simulate swirling gasparticle flows with a swirl number of 0.47. Besides, a gas turbulence augmentation model accounting for the finite-size particle wake effect in the gas Reynolds stress equation is proposed. The proposed turbulence modification models are used to simulate two-phase pipe flows. It can predict not only the turbulence reduction by small particles but also the turbulence enhancement by large particles.

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BT - Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference

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Yu Y, Zhou LX. Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect. In Ogut A, Tsuji Y, Kawahashi M, editors, Proceedings of the 4th ASME/JSME Joint Fluids Engineering Conference: Volume 2, Part A, Symposia. American Society of Mechanical Engineers. 2003. p. 583-588. (Proceedings of the ASME/JSME Joint Fluids Engineering Conference). doi: 10.1115/fedsm2003-45749

Modeling of turbulence modification using two-time-scale dissipation models and accounting for the particle wake effect

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