papers: superpipe

• Zagarola, M.V.,"Mean Flow Scaling of Turbulent Pipe Flow." Ph. D. Thesis, Department of Mechanical and Aerospace Engineering, Princeton University, 1996.
• Zagarola, M.V., Smits, A.J.,"Scaling of the Mean Velocity Profile for Turbulent Pipe Flow." Physical Review Letters, Vol. 78, No. 1, pp.239-242, 1997.
• Zagarola, M.V., A.E. Perry and Smits, A.J.,"Log Laws or Power Laws: The Scaling in the Overlap Region." Physics of Fluids, Vol. 9 (7), pp. 2094-2100, 1997.
• Smits, A.J. and Zagarola, M.V.,"The Issue of Roughness in the Princeton Superpipe Experiment." Physics of Fluids, 1998.
• Zagarola, M.V. and Smits, A.J.,"Mean Flow Scaling of Turbulent Pipe Flow." To appear Journal of Fluid Mechanics.
• Zagarola, M.V. and Smits, A.J."A New Mean Velocity Scaling for Turbulent Boundary Layers," ASME paper FEDSM98-4950, ASME Fluids Engineering Division Summer Meeeting, Washington, DC, June 21-June 25, 1998.
• Smits, A.J."Summary and Appraisal of Self-Sustaining Mechanisms of Wall Turbulence I," AIAA paper #98-2964, 29th AIAA Fluid Dynamics Conference, Albuquerque, NM, June 15-June 18, 1998.
• Smits, A.J. and Zagarola, M.V."High Reynolds Number Turbulent Flows," International Symposium on Seawater Drag Reduction, July 22-July 24, 1998
• Smits, A.J."Needs for High Reynolds Number Facilities to Design the Next Generation of Sea and Air Vehicles," ONR-sponsored Workshop, June 18 - 19, 1997 at the Arlington Hilton.