Computational Analysis of Turbulent Swirling Flow in Water Model of a Gas Turbine Combustor

Benim, Ali Cemal; Cagna, M.; Joos, Franz; Nahavandi, Ali; Wiedermann, Alexander

doi:10.24405/427

Computational Analysis of Turbulent Swirling Flow in Water Model of a Gas Turbine Combustor

Publication date

2009

Document type

Research article

Author

Benim, Ali Cemal

Cagna, M.

Joos, Franz

Nahavandi, Ali

Wiedermann, Alexander

Organisational unit

Strömungsmaschinen in der Energietechnik

DOI

10.24405/427

URI

https://openhsu.ub.hsu-hh.de/handle/10.24405/427

Part of the university bibliography

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Files

openHSU_427.pdf (1.33 MB)

DDC Class

620 Ingenieurwissenschaften

Keyword

Turbulent Flow

Gas Turbine Combustor

Abstract

Turbulent swirling flow in water model of a gas turbine combustor is computationally investigated. As the basic modeling strategy, a three-dimensional unsteady RANS approach is applied, employing a differential Reynolds stress turbulence model. A highly unsteady and three-dimensional flow structure, exhibiting vortex breakdown and a precessing vortex core is observed. For a better understanding and demonstrating the influence of different modeling approaches, computations are carried out for different modeling parameters, comparing their results. These include the solution domain definition, turbulence modeling, the time-step size and the time-averaging period.

Cite as

6th International Conference on Computational Heat and Mass Transfer Proceedings of 6th ICCHMT, May 18-21, 2009, Guangzhou, CHINA Paper 243 (2009)

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Computational Analysis of Turbulent Swirling Flow in Water Model of a Gas Turbine Combustor