UFR 3-11 References
Pipe expansion (with heat transfer)
Underlying Flow Regime 3-11 © copyright ERCOFTAC 2004
References
Baughn, J.W., Hoffman, M.A., Takahashi, R.K. and Launder, B.E. (1984) ‘Local Heat Transfer Downstream of an Abrupt Expansion in a Circular Channel with Constant Wall Heat Flux’, ASME Journal of Heat Transfer, 106, pp. 789 - 796.
Baughn, J.W., Hoffman, M.A., Launder, B.E., Lee, D. and Yap, C. (1989) ‘Heat Transfer, Temperature, and Velocity Measurements Downstream of an Abrupt Expansion in a Tube at a Uniform Wall Temperature’, ASME Journal of Heat Transfer, 111, pp. 870 - 876.
Chang, K.C., Hsieh, W.D. and Chen, C.S. (1995) ‘A Modified Low-Reynolds-Number Turbulence Model Applicable to Recirculating Flow in Pipe Expansion’, ASME J. Fluids Engg, 117, pp. 417 - 423.
Chaturvedi, M.C. (1963) ‘Flow Characteristics of Axisymmetric Expansions’, ASCE Journal of the Hydraulics Division, pp. 61 - 92.
Craft, T.J., Iacovides, H. and Yoon, J.H. (1999) ‘Progress in the Use of Non-Linear Two-Equation Models on the Computation of Convective Heat-Transfer in Impinging and Separated Flows’, Flow, Turbulence and Combustion, 63, pp. 59 - 80.
Devenport, W.J. and Sutton, E.P. (1993) ‘An Experimental Study of Two Flows Through an Axisymmetric Sudden Expansion’, Experiments in Fluids, 14, pp. 423 - 432.
Durbin, P.A. (1995) ‘Separated Flow Computations with the k-ε-υ2 Model’, AIAA Journal, 33, pp. 659 - 664.
Esch, T., Menter, F.R. and Vieser, W. (2003) ‘Heat Transfer Predictions Based on Two-Equation Turbulence Models’, 6th ASME-JSME Thermal Engineering Joint Conference, Paper TED-AJ03-542.
Freeman, A.R. (1982) ‘Further Measurements of Mean and Turbulent Velocity Data in the Jet in Pool Water Experiment. Part 1, Mean Velocity’, Central Electricity Generating Board Report No. TPRD/B/0118/N82.
Goldberg, U. and Batten, P. (2001) ‘Heat Transfer Predictions Using a Dual-Dissipation k-ε Turbulence Closure’, J. Thermophys Heat Trans, 15, 197 - 204.
Gould, R.D., Stevenson, W.H. and Thompson, H.D. (1990) ‘Investigation of Turbulent Transport in an Axisymmetric Sudden Expansion’, AIAA Journal, 28, pp. 276 - 283.
Hanjalić, K. and Jakirlić, S. (1998) ‘Contribution Towards the Second-Moment Closure Modelling of Separating Turbulent Flows’, Computers and Fluids, 27, pp. 137 - 156.
Hutton, A.G. and Szczepura, R.T. (1987) ‘Turbulent Flow and Heat Transfer in a Sudden Pipe Expansion: A Comparison of Current Models of Turbulence’, Central Electricity Generating Board Report No. TPRD/B/0926/R87.
Menter, F.R. (1994) ‘Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications’, AIAA Journal, 32, pp. 1598 - 1605.
Moon, L.F. and Rudinger, G. (1977) ‘Velocity Distribution in an Abruptly Expanding Circular Duct’, ASME J. Fluids Engg, 99, pp. 226 - 230.
Rabbitt, M.J. (1997) ‘Some Validation of Standard, Modified and Non-Linear k-ε Turbulence Models’, Int. J. Num. Meth. Fluids, 24, pp. 965 - 986.
Stieglmeier, M., Tropea, C., Weiser, N. and Nitsche, W. (1989) ‘Experimental Investigation of Turbulent Transport in an Axisymmetric Sudden Expansion’, ASME J. Fluids Engg, 111, pp. 464 - 471.
Szczepura, R.T. (1985) ‘Flow Characteristics of an Axisymmetric Sudden Pipe Expansion: Results Obtained from the Turbulence Studies Rig. Part 1, Mean Turbulence and Velocity Results’, Central Electricity Generating Board Report No. TPRD/B/0702/N85.
Szczepura, R.T. (1986) ‘Flow Characteristics of an Axisymmetric Sudden Pipe Expansion: Results Obtained from the Turbulence Studies Rig. Part 2, Spectral Measurements’, Central Electricity Generating Board Report No. TPRD/B/0703/N86.
Vieser, W., Esch, T. and Menter, F.R. (2002) ‘Heat Transfer Predictions using Advanced Two-Equation Turbulence Models’, CFX Technical Memorandum CFX-VAL10/0602.
Wagner, C. and Friedrich, R. (1999) ‘A-Priori Tests of Reynolds Stress Transport Models in Turbulent Pipe Expansion Flow’, in Engineering Turbulence Modelling and Experiments 4, W. Rodi and D. Laurence (eds), Elsevier Science Ltd, pp. 83 - 92.
Yap, C.R. (1987) ‘Turbulent Heat and Momentum Transfer in Recirculating and Impinging Flows’, Ph.D. Thesis, Faculty of Technology, University of Manchester.
Zemanick, P.P. and Dougall, R.S. (1970) ‘Local Heat Transfer Downstream of Abrupt Circular Channel Expansion’, ASME J. Heat Transfer, 106, pp. 53 - 60.
© copyright ERCOFTAC 2004
Contributors: Jeremy Noyce - Magnox Electric