The unsteady velocity field found in the pump of an automotive torque converter was measured using laser velocimetry. Velocities in the inlet, mid-, and exit planes of the pump were investigated at two significantly different operating conditions: turbine/pump rotational speed ratios of 0.065 and 0.800. A data organization method was developed to visualize the three-dimensional, periodic unsteady velocity field in the rotating frame. For this method, the acquired data are assumed to be periodic at synchronous and blade interaction frequencies. Two shaft encoders were employed to obtain the instantaneous angular position of the torque converter pump and turbine at the instant of laser velocimeter data acquisition. By proper “registration” of the data, visualizing the transient interaction effects between the stator and the pump, and between the pump and the turbine, was possible. Results showed strong cyclic velocity fluctuations in the pump inlet plane as a function of the relative stator-pump position. Typical percent periodic fluctuations in the through flow velocity were 70 percent of the average throughflow velocity. The upstream propagation influence of the turbine on the pump exit plane flow field was seen to be smaller. Percent periodic fluctuations of the throughflow velocity were typically 30 percent. The effect of the stator and turbine on the midplane flow field was seen to be negligible. The incidence angle at the pump inlet fluctuated by 27 and 14 deg for the 0.065 and 0.800 speed ratios, respectively. Typical slip factors at the exit were 0.965 and fluctuated by less than 1 percent.

1.
Bahr
H. M.
,
Flack
R. D.
,
By
R. R.
, and
Zhang
J. J.
,
1990
, “
Laser Velocimeter Measurements in the Stator of a Torque Converter
,” SAE Paper No. 901769, SAE 1990 Transactions,
Journal of Passenger Cars
, Vol.
99
, Section 6, pp.
1625
1634
.
2.
Beaudoin
R. J.
,
Miner
S. M.
, and
Flack
R. D.
,
1992
, “
Laser Velocimeter Measurements in a Centrifugal Pump with an Orbiting Impeller
,”
ASME JOURNAL OF TURBOMACHINERY
, Vol.
114
, pp.
340
358
.
3.
Brun, K., and Flack, R. D., 1993, “Transient Velocity Measurements in a Turbomachine With Independently Rotating Components,” Fifth International Conference on Laser Anemometry, SPIE Conference Proceedings, Vol. 2052, pp. 419–426.
4.
By, R. R., and Lakshminarayana, B., 1991, “Static Pressure Measurements in a Torque Converter Stator,” SAE Paper No. 911934, SAE 1992 Transactions, Journal of Passenger Cars.
5.
By, R. R., and Lakshminarayana, B., 1993, “Measurement and Analysis of the Static Pressure Field in a Torque Converter Pump,” 2nd ASME Pumping Machinery Symposium, ASME FED-Vol. 154, pp. 253–264, to be published in ASME Journal of Fluids Engineering.
6.
By, R. R., Kunz, R. F., and Lakshminarayana, B., 1993, “Navier–Stokes Analysis of the Pump Flow Field of an Automotive Torque Converter,” 2nd ASME Pumping Machinery Symposium, ASME FED-Vol. 154, pp. 264–274, to be published in ASME Journal of Fluids Engineering.
7.
Eckardt, D., 1979, “Flow Field Analysis of Radial and Backswept Centrifugal Compressor Impellers, Part 1: Flow Measurements Using a Laser Velocimeter,” Performance Prediction of Centrifugal Pumps and Compressors, ASME, New York, pp. 77–86.
8.
Gruver, J. K., 1992, “Laser Velocimetry Measurements in the Pump of an Automotive Torque Converter,” Master’s Thesis, University of Virginia, Aug.
9.
Gruver
J. K.
,
Flack
R. D.
, and
Brun
K.
,
1996
, “
Laser Velocimeter Measurements in the Pump of a Torque Converter: Part I—Average Measurements
,”
ASME JOURNAL OF TURBOMACHINERY
, Vol.
118
, this issue, pp.
562
569
.
10.
Hamkins
C. P.
, and
Flack
R. D.
,
1987
, “
Laser Velocimeter Measurements in Shrouded and Unshrouded Radial Flow Pump Impellers
,”
ASME JOURNAL OF TURBOMACHINERY
, Vol.
109
, pp.
70
78
.
11.
Kannemans, H., 1980, “Radial Pump Impeller Measurements Using a Laser Doppler Velocimeter,” ASME Paper No. 80-GT-94.
12.
Krain
H.
,
1981
, “
A Study on Centrifugal Impeller and Diffuser Flow
,”
ASME Journal of Engineering for Power
, Vol.
103
, pp.
688
697
.
13.
Powell
J. A.
,
Strazisar
A. J.
, and
Seasholtz
R. G.
,
1981
, “
Efficient Laser Anemometer for Intra-rotor Flow Mapping in Turbo Machinery
,”
ASME JOURNAL OF TURBOMACHINERY
, Vol.
103
, pp.
424
429
.
14.
Sideris
M. T.
, and
Van den Braembussche
R. A.
,
1987
, “
Influence of a Circumferential Exit Pressure Distortion on the Flow in an Impeller Diffuser
,”
ASME JOURNAL OF TURBOMACHINERY
, Vol.
109
, pp.
48
54
.
15.
Strazisar
A. J.
,
1985
, “
Investigation of Flow Phenomena in a Transonic Fan Rotor Using Laser Velocimetry
,”
ASME Journal of Engineering for Power
, Vol.
107
, pp.
427
435
.
16.
Suder, K. L., Hathaway, M. D., Okiishi, T. H., Strazisar, A. J., and Adamczyk, J., 1987, “Measurement of the Unsteady Flow Field Within the Stator Row of a Transonic Axial-Flow Fan,” ASME Paper No. 87-GT-226.
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