UFR 4-02 References

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Confined coaxial swirling jets 

Underlying Flow Regime 4-02               © copyright ERCOFTAC 2004


References

[1] Y. Lei, J. Zhang,L. Zhou: Simulation of swirling turbulent flows of coaxial jets in a combustor, Numerical Heat Transfer, Part A. vol.37, pp.189-199, 2000

[2] R.P. Lans et al.: Residence time distributions in a cold, confined swirl flow. Implications for chemical engineering combustion modelling, Chemical Engineering Science vol. 52, 1997

[3] L. Zaichik et al.: Modeling of dynamics, heat transfer and combustion in two-phase turbulent flows: 1. Isothermal flow, Experimental Thermal and Fluid Science, 1997

[4A] L.X. Zhou et al.: Studies on the effect of swirl numbers on strongly swirling turbulent gas-particle flows using a phase-Doppler particle anemometer, Powder Technology vol.112, 2000

[4B] L.X. Zhou et al.: Simulation of swirling gas-particle flows using an improved second-order moment two-phase turbulence model, Powder Technology vol.116, 2001

[5] M.A.R. Sharif, Y.K.E. Wong: Evaluation of the performance of three turbulence closure models in the prediction of confined swirling flows, Computers & Fluids vol. 24, 1995

[6] W. Meier et al.: Investigations in the TECFLAM swirling diffusion flame: Laser Raman measurements and CFD calculations, Applied Physics B vol.71, 2000

[7] R.M. So, S.A. Ahmed, H.C. Mongia: An experimental investigation of gas jets in confined swirling air flow, NAS CR-3832, 1984

[8] B.T. Vu, F.C. Gouldin: Flow measurements in a model swirl combustor, AIAA J. vol.20, 1982

[9] M. Sommerfeld, H.H. Qiu: Detailed measurement of a swirling particulate two-phase flow by a phase Doppler anemometer, Int. J. Heat and Fluid Flow vol.12, 1991

[10] TECFLAM web page, http://www.dlr.de/vt/desktopdefault.aspx/tabid-3067/4635_read-6730/

[11] S. Hogg, M.A. Leschziner: Computation of highly swirling confined flow with a Reynolds stress turbulence model, AIAA J. vol.27, 1989

[12] J. Schlüter, T. Schönfeld, T. Poinsot: Characterization of confined swirl flows using large eddy simulations, submitted for ASME Turbo Expo 2001

[13] T. Egly:Experimentelle untersuchung der nicht-reagierenden stromung des siemens V64.3A-brenners, studienarbeit, University of Karlsruhe(TH), Nr 394, December 1999

[14] J. Zhang, S. Nieh, L. Zhou: A new version of algebraic stress model for simulating strongly swirling turbulent flows, Numerical Heat Transfer, Part B: Fundamentals, vol.22, 1992

[15] D.G. Sloan, P.J. Smith, L.D. Smoot: Modeling of swirl in turbulent flow system, Prog. Energy & Comb. Science vol.12, 1986

[16] F. Ducros, F. Nicoud, T. Schönfeld: Large eddy simulation of compressible flows on hybrid meshes, In 11th Symposion on Turbulent Shear Flows, vol.3, 1997

[17] W. Krebs, G. Walz, S. Hoffmann, N. Syred: Detailed thermal analysis of annular combustors, ASME, (99-GT-45), 1999

[18] Roback R., Johnson B.V.: Mass and momentum turbulent transport experiments with confined swirling coaxial jets, NASA CR-168252, 1983

[19] Pierce C.D., Moin P.: LES of a confined coaxial jet with swirl and heat release, AIAA paper 98-2892, 1998

[20] Sommerfeld M., Ando A., Wennerberg D.: Swirling, particle-laden flows through a pipe expansion, Journal of Fluids Engineering, vol. 114, 1992

[21] Srinivasan R., Mongia H.C.: Numerical computations of swirling recirculating flow, Nasa CR-165197, 1980

[22] Sturgess G.J.: Aerothermal modeling program – phase I, NASA CR-168202, 1983

[23] Zalesak S.T.: Fully multidimensional flux-corrected transport algorithms for fluids, Journal of Computational Physics, vol. 31, 1979


© copyright ERCOFTAC 2004



Contributors: Stefan Hohmann - MTU Aero Engines


Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References