Modelling of compressible periodic flows with application to turbomachinery seals

G. Chochua; W. Shyy; J. Moore

doi:10.1504/PCFD.2002.003315

Modelling of compressible periodic flows with application to turbomachinery seals

G. Chochua^*, W. Shyy, J. Moore

^*Corresponding author for this work

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

6 Citations (Scopus)

Abstract

Gas annular seals are commonly adopted for leakage control in turbomachinery applications. Due to repeated geometric patterns of the seals, it is desirable to develop suitable strategies to treat a small portion of the flow domain and extrapolate the information to the entire seal. This paper presents such a technique. The following issues are addressed: (i) validation of results obtained using periodic boundary conditions accounting for turbulent and compressible flows, (ii) effect of the rotor rotation and inlet swirl ratio on flow development in the seal, (iii) extrapolation of the full-length results from limited periodic simulations, and (iv) distribution of the friction factor on contributing pressure and shear stress components. The computational techniques presented can help address the design-related issues more economically, and with better insight into the fluid physics.

Original language	English
Pages (from-to)	9-19
Number of pages	11
Journal	Progress in Computational Fluid Dynamics
Volume	2
Issue number	1
DOIs	https://doi.org/10.1504/PCFD.2002.003315
Publication status	Published - 2002
Externally published	Yes

Keywords

Compressible turbulent flow
Gas annular damper seal
Periodic boundary condition
Turbomachinery

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10.1504/PCFD.2002.003315

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title = "Modelling of compressible periodic flows with application to turbomachinery seals",

abstract = "Gas annular seals are commonly adopted for leakage control in turbomachinery applications. Due to repeated geometric patterns of the seals, it is desirable to develop suitable strategies to treat a small portion of the flow domain and extrapolate the information to the entire seal. This paper presents such a technique. The following issues are addressed: (i) validation of results obtained using periodic boundary conditions accounting for turbulent and compressible flows, (ii) effect of the rotor rotation and inlet swirl ratio on flow development in the seal, (iii) extrapolation of the full-length results from limited periodic simulations, and (iv) distribution of the friction factor on contributing pressure and shear stress components. The computational techniques presented can help address the design-related issues more economically, and with better insight into the fluid physics.",

keywords = "Compressible turbulent flow, Gas annular damper seal, Periodic boundary condition, Turbomachinery",

author = "G. Chochua and W. Shyy and J. Moore",

year = "2002",

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language = "English",

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T1 - Modelling of compressible periodic flows with application to turbomachinery seals

AU - Chochua, G.

AU - Shyy, W.

AU - Moore, J.

PY - 2002

Y1 - 2002

N2 - Gas annular seals are commonly adopted for leakage control in turbomachinery applications. Due to repeated geometric patterns of the seals, it is desirable to develop suitable strategies to treat a small portion of the flow domain and extrapolate the information to the entire seal. This paper presents such a technique. The following issues are addressed: (i) validation of results obtained using periodic boundary conditions accounting for turbulent and compressible flows, (ii) effect of the rotor rotation and inlet swirl ratio on flow development in the seal, (iii) extrapolation of the full-length results from limited periodic simulations, and (iv) distribution of the friction factor on contributing pressure and shear stress components. The computational techniques presented can help address the design-related issues more economically, and with better insight into the fluid physics.

AB - Gas annular seals are commonly adopted for leakage control in turbomachinery applications. Due to repeated geometric patterns of the seals, it is desirable to develop suitable strategies to treat a small portion of the flow domain and extrapolate the information to the entire seal. This paper presents such a technique. The following issues are addressed: (i) validation of results obtained using periodic boundary conditions accounting for turbulent and compressible flows, (ii) effect of the rotor rotation and inlet swirl ratio on flow development in the seal, (iii) extrapolation of the full-length results from limited periodic simulations, and (iv) distribution of the friction factor on contributing pressure and shear stress components. The computational techniques presented can help address the design-related issues more economically, and with better insight into the fluid physics.

KW - Compressible turbulent flow

KW - Gas annular damper seal

KW - Periodic boundary condition

KW - Turbomachinery

UR - https://openalex.org/W2132308606

UR - https://www.scopus.com/pages/publications/0242509939

U2 - 10.1504/PCFD.2002.003315

DO - 10.1504/PCFD.2002.003315

M3 - Journal Article

SN - 1468-4349

VL - 2

SP - 9

EP - 19

JO - Progress in Computational Fluid Dynamics

JF - Progress in Computational Fluid Dynamics

IS - 1

ER -

Modelling of compressible periodic flows with application to turbomachinery seals

Abstract

Keywords

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