A comparison of the numerical predictions of the supersonic combustion of Hydrogen using the S-A and SST κ - ω models

K. Kumaran; V. Babu

doi:10.1504/PCFD.2009.027765

A comparison of the numerical predictions of the supersonic combustion of Hydrogen using the S-A and SST κ - ω models

K. Kumaran, V. Babu^*

^*Corresponding author for this work

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

5 Scopus citations

Abstract

In the present work, the influence of the turbulence model on the numerical predictions of supersonic combustion of hydrogen in a model combustor is investigated. Three dimensional, compressible, turbulent, reacting flow calculations using the Shear Stress Transport (SST) κ - ω model have been carried out. The results are compared with earlier results obtained using the Spalart-Allmaras model. The effect of detailed chemistry on the predictions of heat release and combustion efficiency is also investigated for one injection scheme. The calculations show that the mixing and hence the heat release is over predicted by the SA model. Whereas, the peak values for pressure and temperature are predicted better by the SST κ - ω model. This investigation demonstrates the importance of the use of a two equation turbulence model over a one equation model for studying such complex flow phenomena.

Original language	English
Pages (from-to)	475-489
Number of pages	15
Journal	Progress in Computational Fluid Dynamics
Volume	9
Issue number	8
DOIs	https://doi.org/10.1504/PCFD.2009.027765
State	Published - 2009
Externally published	Yes

Keywords

Hydrogen
Numerical simulations
Supersonic combustion

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10.1504/PCFD.2009.027765

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title = "A comparison of the numerical predictions of the supersonic combustion of Hydrogen using the S-A and SST κ - ω models",

abstract = "In the present work, the influence of the turbulence model on the numerical predictions of supersonic combustion of hydrogen in a model combustor is investigated. Three dimensional, compressible, turbulent, reacting flow calculations using the Shear Stress Transport (SST) κ - ω model have been carried out. The results are compared with earlier results obtained using the Spalart-Allmaras model. The effect of detailed chemistry on the predictions of heat release and combustion efficiency is also investigated for one injection scheme. The calculations show that the mixing and hence the heat release is over predicted by the SA model. Whereas, the peak values for pressure and temperature are predicted better by the SST κ - ω model. This investigation demonstrates the importance of the use of a two equation turbulence model over a one equation model for studying such complex flow phenomena.",

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AU - Babu, V.

PY - 2009

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N2 - In the present work, the influence of the turbulence model on the numerical predictions of supersonic combustion of hydrogen in a model combustor is investigated. Three dimensional, compressible, turbulent, reacting flow calculations using the Shear Stress Transport (SST) κ - ω model have been carried out. The results are compared with earlier results obtained using the Spalart-Allmaras model. The effect of detailed chemistry on the predictions of heat release and combustion efficiency is also investigated for one injection scheme. The calculations show that the mixing and hence the heat release is over predicted by the SA model. Whereas, the peak values for pressure and temperature are predicted better by the SST κ - ω model. This investigation demonstrates the importance of the use of a two equation turbulence model over a one equation model for studying such complex flow phenomena.

AB - In the present work, the influence of the turbulence model on the numerical predictions of supersonic combustion of hydrogen in a model combustor is investigated. Three dimensional, compressible, turbulent, reacting flow calculations using the Shear Stress Transport (SST) κ - ω model have been carried out. The results are compared with earlier results obtained using the Spalart-Allmaras model. The effect of detailed chemistry on the predictions of heat release and combustion efficiency is also investigated for one injection scheme. The calculations show that the mixing and hence the heat release is over predicted by the SA model. Whereas, the peak values for pressure and temperature are predicted better by the SST κ - ω model. This investigation demonstrates the importance of the use of a two equation turbulence model over a one equation model for studying such complex flow phenomena.

KW - Hydrogen

KW - Numerical simulations

KW - Supersonic combustion

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DO - 10.1504/PCFD.2009.027765

M3 - 文章

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SN - 1468-4349

VL - 9

SP - 475

EP - 489

JO - Progress in Computational Fluid Dynamics

JF - Progress in Computational Fluid Dynamics

IS - 8

ER -

A comparison of the numerical predictions of the supersonic combustion of Hydrogen using the S-A and SST κ - ω models

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Keywords

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