Numerical study of turbulent diesel flow in a pipe with sudden expansion

Three two-equation models and a second-moment closure are implemented in the case of turbulent diesel flow in a pipe with sudden expansion. The chosen two-equation closures are: the standard k– ε, the RNG k– ε and the two-scale k– ε models. The performance of the models is investigated with regard t...

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Bibliographic Details
Published in:Applied mathematical modelling 2001-03, Vol.25 (4), p.319-333
Main Authors: Koronaki, E.D, Liakos, H.H, Founti, M.A, Markatos, N.C
Format: Article
Language:English
Subjects:
Non-equilibrium parameters
Second-moment closure
Sudden expansion
Turbulence
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Summary:Three two-equation models and a second-moment closure are implemented in the case of turbulent diesel flow in a pipe with sudden expansion. The chosen two-equation closures are: the standard k– ε, the RNG k– ε and the two-scale k– ε models. The performance of the models is investigated with regard to the non-equilibrium parameter η and the mean strain of the flow, S. Velocity and turbulence kinetic energy predictions of the different models are compared among themselves and with experimental data and are interpreted on the basis of the aforementioned quantities. The effect of more accurate near-wall modeling to the two-equation models is also investigated. The results of the study demonstrate the superiority of the second-moment closure in predicting the flow characteristics over the entire domain. From the two-equation models the RNG derived k– ε model also gave very good predictions, especially when non-equilibrium wall-functions were implemented. As far as η and S are concerned, only the closures with greater physical consistency, such as the two-scale k– ε model, give satisfactory results.
ISSN:0307-904X
DOI:10.1016/S0307-904X(00)00055-X