# UFR 4-04 References

# Flow in a curved rectangular duct - non rotating

Underlying Flow Regime 4-04 © copyright ERCOFTAC 2004

## References

Chang, S.M., Humphrey, J.A.C., Johnson, R.W., and Launder, B.E. (1983), “Turbulent momentum and heat transfer in flow through a 180 degree bend of square cross section,” Proc. 4th Symposium on Turbulent Shear Flows, Karlsruhe, Germany.

Choi, Y.D., Iacovides, H., and Launder, B.E. (1989), “Numerical Computation of Turbulent Flow in a Square-Sectioned 180 Deg. Bend,” J Fluids Eng., vol. 111, pp. 59-68.

Dauthieu, I., Laurence, D., and Richoux, S. (1996), Proc. of 5th ERCOFTAC/IAHR Workshop on Refined Flow Modelling, Chatou (Paris), April 25-26, Electricité de France. Laboratoire Nationale d’Hydraulique.

Gillis, J.C., and Johnston, J.P. (1983), “Turbulent boundary layer flow and structure on a convex wall and its redevelopment on a flat wall,” J. Fluid Mech., vol. 135, pp. 123-153.

Hoffman, P.H., Muck, K.C., and Bradshaw, P. (1985), “The effect of concave surface curvature on turbulent boundary layers,” J. Fluid Mech., vol. 161, pp. 371-403.

Humphrey, J.A.C., Whitelaw, J.H., and Yee, G. (1981), “Turbulent flow in a square duct with strong curvature,” J. Fluid Mech., vol. 103, pp. 443-463.

Iacovides, H., Launder, B.E., Loizou, P.A., and Zhao, N.H. (1990), “Turbulent boundary layer development around a square-sectioned U-bend: measurements and computation,” J. Fluid Eng., vol. 112, pp. 409-415.

Kim, W.J., and Patel, V.C. (1994), “Origin and decay of longitudinal vortices in developing flow in a curved rectangular duct,” J. Fluid Eng., vol. 116, pp. 45-52.

Muck, K.C., Hoffman, P.H., and Bradshaw, P. (1985), “The effect of convex surface curvature on turbulent boundary layers,” J. Fluid Mech., vol. 161, pp. 347-369.

Patel, V.C. (1969), “Measurements of secondary flow in the boundary layer of a 180 degree channel,” Aeronautical Research Council, CP No.1043.

Rodi, W., Bonnin, J.-C., and Buchal, T. (1995), Proc. ERCOFTAC Workshop on Data Bases and Testing of Calculation Methods for Turbulent Flows, University of Karlsruhe. Institute for Hydromechanics, April 3-7.

Rodi, W., Bonnin, J.-C., Buchal, T., and Laurence, D. (1998), “Testing of Calculational Methods for Turbulent Flows: Workshop Results for 5 Test Cases,” EDF Report 98NB00004.

Smits, A.J., Young, S.T.B., and Bradshaw, P. (1979), “The effect of short regions of high surface curvature on turbulent boundary layers,” J. Fluid Mech., vol. 94, pp. 209-242.

© copyright ERCOFTAC 2004

Contributors: Lewis Davenport - Rolls-Royce Marine Power, Engineering & Technology Division