An analytical and experimental study of the plane, incompressible, turbulent free shear layer with arbitrary velocity ratio and pressure gradient /
by C.M. Sabin.
Description
- Language(s)
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English
- Published
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Stanford, California : Department of Mechanical Engineering, Stanford University, 1963.
- Summary
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A first order approximation is derived in similarity coordinates for the velocity variation across a mixing zone between two streams of different velocities in an arbitrary pressure gradient. The velocity profiles obtained are functions of a single parameter, the ratio of the velocity of the slow stream to that of the fast stream. The first order velocity profiles are compared to those obtained from the complete solution to the zero pressure gradient case by Gortler and good agreement is found when the velocity ratio is greater than 0.5. The form of the eddy diffusivity appropriate to the first order theory is determined from analysis and experimental data. This form leads to an explicit transformation for the similarity coordinate requiring only a single empirical constant for all cases. This similarity coordinate is shown to reduce to Gortler's variable in the constant pressure case. Expressions for the shear and the mixing layer width for the general case are presented, and shown to check the data from several cases. A hot wire anemometer which was specially designed and constructed for taking the experimental data in a water channel is described. (Author).
- Note
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Research supported with funding from the Mechanics Division, United States Air Force Office of Scientific Research, Grant. AFOSR-136-63, performed by the Stanford University Department of Mechanical Engineering, Thermosciences Division.
Stanford University Department of Mechanical Engineering Report No. MD-9.
"October 1963."
- Physical Description
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113 pages :
illustrations ;
28 cm
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