THE TORQUE AND TURBULENT BOUNDARY LAYER OF ROTATING DISKS WITH SMOOTH AND ROUGH SURFACES, AND IN DRAG REDUCING POLYMER SOLUTIONS
The resisting torque of disks rotating in an unbounded fluid is analyzed on the basis of three-dimensional boundary-layer theory. Smooth and rough surfaces in ordinary fluids and in drag-reducing polymer solutions are considered. A general logarithmic relation is derived for the torque as a function of Reynolds number for arbitrary roughness and arbitrary drag reduction. Special formulas are obtained for smooth surfaces, fully rough surfaces, polymer solutions with a linear logarithmic drag-reduction characterization, and polymer solutions with maximum drag reduction. Relations are also obtained for boundary-layer parameters such as thickness, wall shearing stress, etc.
Naval Ship Research and Development CenterBethesda, MD United States 20034
- Granville, P S
- Publication Date: 1972-4
- Pagination: 54 p.
- TRT Terms: Additives; Boundary layer; Drag; Polymers; Roughness; Three dimensional flow; Turbulence; Turbulent boundary layer
- Old TRIS Terms: Drag reduction; Polymer additives
- Subject Areas: Design; Marine Transportation;
- Accession Number: 00035581
- Record Type: Publication
- Source Agency: National Technical Information Service
- Report/Paper Numbers: NSRDC-3711
- Files: TRIS
- Created Date: Oct 27 1972 12:00AM