The flow field inside a 50 percent eccentric whirling annular seal operating at a Reynolds number of 24,000 and a Taylor number of 6600 has been measured using a three-dimensional laser-Doppler anemometer system. Flush mount pressure and wall shear stress probes have been used to measure the stresses (normal and shear) along the length of the stator. The rotor was mounted eccentrically on the shaft so that the rotor orbit was circular and rotated at the same speed as the shaft (a whirl ratio of 1.0). This paper presents mean pressure, mean wall shear stress magnitude, and mean wall shear stress direction distributions along the length of the seal. Phase-averaged wall pressure and wall shear stress are presented along with phase-averaged mean velocity and turbulence kinetic energy distributions located 0.16c from the stator wall, where c is the seal clearance. The relationships between the velocity, turbulence, wall pressure, and wall shear stress are very complex and do not follow simple bulk flow predictions.

1.
Allaire
 
P. E.
,
Lee
 
C. C.
, and
Gunter
 
E. J.
,
1978
, “
Dynamics of Short Eccentric Plain Seals With High Axial Reynolds Numbers
,”
Journal of Spacecraft and Rockets
, Vol.
15
, pp.
341
347
.
2.
Chen
 
W. C.
, and
Jackson
 
E. D.
,
1987
, “
A General Theory for Eccentric and Misalignment Effects in High-Pressure Annular Seals
,”
ASLE Transactions
, Vol.
30
, pp.
293
301
.
3.
Hanratty, T. J., and Campbell, J. A., 1983, “Measurement of Wall Shear Stress,” Fluid Mechanics Measurements, Hemisphere Publishing Corporation, pp. 559–611.
4.
Haritonidis, J. H., 1989, “The Measurement of Wall Shear Stress,” Advances in Fluid Mechanics Measurements, Lecture Notes in Engineering, Springer-Verlag, pp. 229–261.
5.
Ludwieg, H., 1950, “Instrument for Measuring the Wall Shearing Stress of Turbulent Boundary Layers,” NACA TM 1284.
6.
Morrison
 
G. L.
,
DeOtte
 
R. E.
, and
Thames
 
H. D.
,
1994
, “
Experimental Study of the Flow Field Inside a Whirling Annular Seal
,”
STLE Tribology Transactions
, Vol.
37
, pp.
425
429
.
7.
Olivero-Bally
 
P.
,
Forestier
 
B. E.
,
Focquenoy
 
E.
, and
Olivero
 
P.
,
1993
, “
Wall-Pressure Fluctuations in Natural and Manipulated Turbulent Boundary Layers in Air and Water
,”
Flow Noise Modeling, Measurement, and Control
, ASME NCA Vol. 15/FED Vol.
168
, pp.
63
74
.
8.
Pessoni, D. H., 1974, “An Experimental Investigation Into the Effects of Wall Heat Flux on the Turbulence Structure of Developing Boundary Layers at Moderately High Reynolds Numbers,” Ph.D. Dissertation, Mechanical and Industrial Engineering Department, University of Illinois, Urbana.
9.
Thames, H. D., 1992, “Mean Flow and Turbulence Characteristics in Whirling Annular Seals,” Master’s Thesis, Texas A&M University, College Station, TX, 77843.
10.
Van Pragenau, G. L., 1990, “Damping Bearings for Turbomachinery,” NASA TP 3092, Vol. II, Advanced Earth-to-Orbit Propulsion Technology Conference, Huntsville, AL, pp. 155–162.
11.
Winslow, R. W., 1994, “Dynamic Pressure and Shear Stress Measurements on the Stator Wall of Whirling Annular Seals,” Master of Science Thesis, Texas A&M University, College Station, TX 77843.
This content is only available via PDF.
You do not currently have access to this content.