UFR 3-12 References: Difference between revisions
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{{UFR|front=UFR 3-12|description=UFR 3-12 Description|references=UFR 3-12 References|testcase=UFR 3-12 Test Case|evaluation=UFR 3-12 Evaluation|qualityreview=UFR 3-12 Quality Review|bestpractice=UFR 3-12 Best Practice Advice|relatedACs=UFR 3-12 Related ACs}} | {{UFR|front=UFR 3-12|description=UFR 3-12 Description|references=UFR 3-12 References|testcase=UFR 3-12 Test Case|evaluation=UFR 3-12 Evaluation|qualityreview=UFR 3-12 Quality Review|bestpractice=UFR 3-12 Best Practice Advice|relatedACs=UFR 3-12 Related ACs}} | ||
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== References == | == References == | ||
Camci, C., Arts, T. (1985a), "Short Duration Measurements and Numerical Simulation of Heat Transfer Along the Suction Side of a Film-Cooled Gas Turbine Blade", ''J. Eng. Power'', '''107''', 991 | Camci, C., Arts, T. (1985a), "Short Duration Measurements and Numerical Simulation of Heat Transfer Along the Suction Side of a Film-Cooled Gas Turbine Blade", ''J. Eng. Power'', '''107''', 991 – 997. | ||
Camci, C., Arts, T. (1985b), "Experimental Heat Transfer Investigation Around the Film-Cooled Leading Edge of a High-Pressure Gas Turbine Blade", ''J. Eng. Power'', '''107''', 1016 | Camci, C., Arts, T. (1985b), "Experimental Heat Transfer Investigation Around the Film-Cooled Leading Edge of a High-Pressure Gas Turbine Blade", ''J. Eng. Power'', '''107''', 1016 – 1021. | ||
Camci, C., Arts, T. (1990), "An Experimental Convective Heat Transfer Investigation Around a Film-Cooled Gas Turbine Blade", ''J. Eng. Power'', '''112''', 497 | Camci, C., Arts, T. (1990), "An Experimental Convective Heat Transfer Investigation Around a Film-Cooled Gas Turbine Blade", ''J. Eng. Power'', '''112''', 497 – 503. | ||
Consigny, H,. Richards, B.E. (1983), "Short Duration Measurements of Heat Transfer Rate to a Gas Turbine Rotor Blade", ASME Journal of Engineering for Power, Vol. 104, No. 3, July, pp. 542 | Consigny, H,. Richards, B.E. (1983), "Short Duration Measurements of Heat Transfer Rate to a Gas Turbine Rotor Blade", ASME Journal of Engineering for Power, Vol. 104, No. 3, July, pp. 542 – 551 | ||
Durbin, P. A. (1996), "On the k-3 Stagnation Point Anomaly", ''Int. J. Heat and Fluid Flow'', '''17''', 1, 89 | Durbin, P. A. (1996), "On the k-3 Stagnation Point Anomaly", ''Int. J. Heat and Fluid Flow'', '''17''', 1, 89 – 90. | ||
Laurence, D. (2002), "Applications of Reynolds Averaged Navier Stokes Equations to Industrial Flows", ''Von Karman Inst. Lect. Series: Introduction to Turbulence Modelling''. | Laurence, D. (2002), "Applications of Reynolds Averaged Navier Stokes Equations to Industrial Flows", ''Von Karman Inst. Lect. Series: Introduction to Turbulence Modelling''. | ||
Kato, M., Launder, B.E. (1993), "The Modelling of Turbulent Flow Around Stationary and Vibrating Square Cylinders", ''9<sup>th</sup> Symposium on Turbulent Shear Flows'', Kyoto, Japan, August 16-18, pp. 10-4-1 | Kato, M., Launder, B.E. (1993), "The Modelling of Turbulent Flow Around Stationary and Vibrating Square Cylinders", ''9<sup>th</sup> Symposium on Turbulent Shear Flows'', Kyoto, Japan, August 16-18, pp. 10-4-1 – 10-4-6 | ||
Køllgaard Voigt, L. (2000), "Comparison of Turbulence Models for Numerical Calculation of Airflow in an Annex 20 Room", ''International Center for Indoor Environment and Energy'', Dept. of Energy Engineering, Tech. University of Denmark, http://www.ie.dtu.dk/ prev_res_results/January00.asp | Køllgaard Voigt, L. (2000), "Comparison of Turbulence Models for Numerical Calculation of Airflow in an Annex 20 Room", ''International Center for Indoor Environment and Energy'', Dept. of Energy Engineering, Tech. University of Denmark, http://www.ie.dtu.dk/prev_res_results/January00.asp | ||
Kral, L.D., Mani, M. and Ladd, J. (1996), "Application of Turbulence Models for Aerodynamic and Propulsion Flowfields", ''AIAA J.'', '''34''', 11, 2291 | Kral, L.D., Mani, M. and Ladd, J. (1996), "Application of Turbulence Models for Aerodynamic and Propulsion Flowfields", ''AIAA J.'', '''34''', 11, 2291 – 2298. | ||
Ligrani, P.M., Camci, C., Grady, M.S. (1982) "Thin Film Heat Transfer Gauge Construction and Measurement Details", VKI TM 33, November | Ligrani, P.M., Camci, C., Grady, M.S. (1982) "Thin Film Heat Transfer Gauge Construction and Measurement Details", VKI TM 33, November | ||
Medic, G. (2001), "Flow Problem Without Cooling", http://www.stanford.edu/~gmedic/ cooling1.html | Medic, G. (2001), "Flow Problem Without Cooling", <!--http://www.stanford.edu/~gmedic/cooling1.html-->''link to Stanford broken'' | ||
Medic, G., Durbin, P.A. (2002), "Toward Improved Prediction of Heat Transfer on Turbine Blades", ''J. Turbomach.-Trans. ASME'', '''124''', 2, 187 | Medic, G., Durbin, P.A. (2002), "Toward Improved Prediction of Heat Transfer on Turbine Blades", ''J. Turbomach.-Trans. ASME'', '''124''', 2, 187 – 192. <!--http://www.stanford.edu/~gmedic/ (Bad link DCE 2011-09-26)--> | ||
Menter, F.R. (1992), "Influence of Freestream Values on k-ω Turbulence Model Predictions", ''AIAA J.'', '''30''', 6, 1657 | Menter, F.R. (1992), "Influence of Freestream Values on k-ω Turbulence Model Predictions", ''AIAA J.'', '''30''', 6, 1657 – 1659. | ||
Menter, F.R. (1994), "Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications", ''AIAA J.'', '''32''', 8, 1598 | Menter, F.R. (1994), "Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications", ''AIAA J.'', '''32''', 8, 1598 – 1605. | ||
Menter, F.R., Grotjans, H., Unger, F. (1997), "Numerical Aspects of Turbulence Modelling for Reynolds Averaged Navier-Stokes Equations", ''Von Karman Inst. Lect. Series 1997-02 on Computational Fluid Dynamics'', Rhode Saint Genese. | Menter, F.R., Grotjans, H., Unger, F. (1997), "Numerical Aspects of Turbulence Modelling for Reynolds Averaged Navier-Stokes Equations", ''Von Karman Inst. Lect. Series 1997-02 on Computational Fluid Dynamics'', Rhode Saint Genese. | ||
Rodi, W. and Scheurer, G. (1986), "Scrutinizing the k-ε Turbulence Model under Adverse Pressure Gradient Conditions", ''ASME J. Fluid Eng.'', '''108''', 174 | Rodi, W. and Scheurer, G. (1986), "Scrutinizing the k-ε Turbulence Model under Adverse Pressure Gradient Conditions", ''ASME J. Fluid Eng.'', '''108''', 174 – 179. | ||
Schultz, D.L., Jones, T.V. (1973) "Heat Transfer Measurements in Short Duration on Hypersonic Facilities", AGARDograpg 165 | Schultz, D.L., Jones, T.V. (1973) "Heat Transfer Measurements in Short Duration on Hypersonic Facilities", AGARDograpg 165 | ||
STAR-CD, ''Version 3.10 | STAR-CD, ''Version 3.10 — Methodology'', 1999, Computational Dynamics Limited. | ||
Strahle, W.C. (1985), "Stagnation Point Flows with Freestream Turbulence | Strahle, W.C. (1985), "Stagnation Point Flows with Freestream Turbulence — The Matching Condition", ''AIAA J.'', 2'''3''', 11, 1822 – 1824. | ||
Versteeg, H.K., Malalasekera, W. (1996), "Turbulence and its Modelling", ''An Introduction to Computational Fluid Dynamics'', Chapter 3, Longman. | Versteeg, H.K., Malalasekera, W. (1996), "Turbulence and its Modelling", ''An Introduction to Computational Fluid Dynamics'', Chapter 3, Longman. | ||
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[1] The prediction of the mean flow in the vicinity of the stagnation point of e.g. a bluff body is not affected. | |||
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{{UFR|front=UFR 3-12|description=UFR 3-12 Description|references=UFR 3-12 References|testcase=UFR 3-12 Test Case|evaluation=UFR 3-12 Evaluation|qualityreview=UFR 3-12 Quality Review|bestpractice=UFR 3-12 Best Practice Advice|relatedACs=UFR 3-12 Related ACs}} | {{UFR|front=UFR 3-12|description=UFR 3-12 Description|references=UFR 3-12 References|testcase=UFR 3-12 Test Case|evaluation=UFR 3-12 Evaluation|qualityreview=UFR 3-12 Quality Review|bestpractice=UFR 3-12 Best Practice Advice|relatedACs=UFR 3-12 Related ACs}} | ||
Latest revision as of 13:15, 12 February 2017
Stagnation point flow
Underlying Flow Regime 3-12 © copyright ERCOFTAC 2004
References
Camci, C., Arts, T. (1985a), "Short Duration Measurements and Numerical Simulation of Heat Transfer Along the Suction Side of a Film-Cooled Gas Turbine Blade", J. Eng. Power, 107, 991 – 997.
Camci, C., Arts, T. (1985b), "Experimental Heat Transfer Investigation Around the Film-Cooled Leading Edge of a High-Pressure Gas Turbine Blade", J. Eng. Power, 107, 1016 – 1021.
Camci, C., Arts, T. (1990), "An Experimental Convective Heat Transfer Investigation Around a Film-Cooled Gas Turbine Blade", J. Eng. Power, 112, 497 – 503.
Consigny, H,. Richards, B.E. (1983), "Short Duration Measurements of Heat Transfer Rate to a Gas Turbine Rotor Blade", ASME Journal of Engineering for Power, Vol. 104, No. 3, July, pp. 542 – 551
Durbin, P. A. (1996), "On the k-3 Stagnation Point Anomaly", Int. J. Heat and Fluid Flow, 17, 1, 89 – 90.
Laurence, D. (2002), "Applications of Reynolds Averaged Navier Stokes Equations to Industrial Flows", Von Karman Inst. Lect. Series: Introduction to Turbulence Modelling.
Kato, M., Launder, B.E. (1993), "The Modelling of Turbulent Flow Around Stationary and Vibrating Square Cylinders", 9th Symposium on Turbulent Shear Flows, Kyoto, Japan, August 16-18, pp. 10-4-1 – 10-4-6
Køllgaard Voigt, L. (2000), "Comparison of Turbulence Models for Numerical Calculation of Airflow in an Annex 20 Room", International Center for Indoor Environment and Energy, Dept. of Energy Engineering, Tech. University of Denmark, http://www.ie.dtu.dk/prev_res_results/January00.asp
Kral, L.D., Mani, M. and Ladd, J. (1996), "Application of Turbulence Models for Aerodynamic and Propulsion Flowfields", AIAA J., 34, 11, 2291 – 2298.
Ligrani, P.M., Camci, C., Grady, M.S. (1982) "Thin Film Heat Transfer Gauge Construction and Measurement Details", VKI TM 33, November
Medic, G. (2001), "Flow Problem Without Cooling", link to Stanford broken
Medic, G., Durbin, P.A. (2002), "Toward Improved Prediction of Heat Transfer on Turbine Blades", J. Turbomach.-Trans. ASME, 124, 2, 187 – 192.
Menter, F.R. (1992), "Influence of Freestream Values on k-ω Turbulence Model Predictions", AIAA J., 30, 6, 1657 – 1659.
Menter, F.R. (1994), "Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications", AIAA J., 32, 8, 1598 – 1605.
Menter, F.R., Grotjans, H., Unger, F. (1997), "Numerical Aspects of Turbulence Modelling for Reynolds Averaged Navier-Stokes Equations", Von Karman Inst. Lect. Series 1997-02 on Computational Fluid Dynamics, Rhode Saint Genese.
Rodi, W. and Scheurer, G. (1986), "Scrutinizing the k-ε Turbulence Model under Adverse Pressure Gradient Conditions", ASME J. Fluid Eng., 108, 174 – 179.
Schultz, D.L., Jones, T.V. (1973) "Heat Transfer Measurements in Short Duration on Hypersonic Facilities", AGARDograpg 165
STAR-CD, Version 3.10 — Methodology, 1999, Computational Dynamics Limited.
Strahle, W.C. (1985), "Stagnation Point Flows with Freestream Turbulence — The Matching Condition", AIAA J., 23, 11, 1822 – 1824.
Versteeg, H.K., Malalasekera, W. (1996), "Turbulence and its Modelling", An Introduction to Computational Fluid Dynamics, Chapter 3, Longman.
Yakhot, V., Orszag, S.A., Tangham, S., Gatski, T.B. and Speciale, C.G. (1992), "Development of Turbulence Models for Shear Flows by a Double Expansion Technique", Phys. Fluids, A4 (7).
Wilcox, D.C., (1993), Turbulence modeling for CFD, La Cañada, California.
[1] The prediction of the mean flow in the vicinity of the stagnation point of e.g. a bluff body is not affected.
© copyright ERCOFTAC 2004
Contributors: Beat Ribi - MAN Turbomaschinen AG Schweiz