The aerodynamic performance of an isolated fan or rotor alone model was measured in the NASA Glenn Research Center 9- by 15- Foot Low Speed Wind Tunnel as part of the Fan Broadband Source Diagnostic Test conducted at NASA Glenn. The Source Diagnostic Test was conducted to identify the noise sources within a wind tunnel scale model of a turbofan engine and quantify their contribution to the overall system noise level. The fan was part of a 1/5th scale model representation of the bypass stage of a current technology turbofan engine. For the rotor alone testing, the fan and nacelle, including the inlet, external cowl, and fixed area fan exit nozzle, were modeled in the test hardware; the internal outlet guide vanes located behind the fan were removed. Without the outlet guide vanes, the velocity at the nozzle exit changes significantly, thereby affecting the fan performance. As part of the investigation, variations in the fan nozzle area were tested in order to match as closely as possible the rotor alone performance with the fan performance obtained with the outlet guide vanes installed. The fan operating performance was determined using fixed pressure/temperature combination rakes and the corrected weight flow. The performance results indicate that a suitable nozzle exit was achieved to be able to closely match the rotor alone and fan/outlet guide vane configuration performance on the sea level operating line. A small shift in the slope of the sea level operating line was measured, which resulted in a slightly higher rotor alone fan pressure ratio at take-off conditions, matched fan performance at cutback conditions, and a slightly lower rotor alone fan pressure ratio at approach conditions. However, the small differences in fan performance at all fan conditions were considered too small to affect the fan acoustic performance.
[1]
William K. Thompson,et al.
Performance Optimization of a Rotor Alone Nacelle for Acoustic Fan Testing
,
2001
.
[2]
Christopher E. Hughes,et al.
Aerodynamic Performance of Scale-Model Turbofan Outlet Guide Vanes Designed for Low Noise
,
2002
.
[3]
M. Nallasamy,et al.
Design Selection and Analysis of a Swept and Leaned Stator Concept
,
1999
.
[4]
William K. Thompson,et al.
Design and Integration of a Rotor Alone Nacelle for Acoustic Fan Testing
,
2001
.
[5]
W Ganz Ulrich,et al.
Boeing 18-Inch Fan Rig Broadband Noise Test
,
1998
.
[6]
Chellappa Balan,et al.
Propulsion Simulator for High Bypass Turbofan Performance Evaluation
,
1993
.
[7]
Richard P. Woodward,et al.
Fan Noise Source Diagnostic Test -- Far-field Acoustic Results
,
2002
.
[8]
Gary G. Podboy,et al.
Steady and Unsteady Flow Field Measurements Within a NASA 22-Inch Fan Model
,
2002
.
[9]
E Arrington,et al.
Flow quality improvements in the NASA Lewis Research Center 9- by 15-Foot Low Speed Wind Tunnel
,
1995
.
[10]
Richard P. Woodward,et al.
Fan Noise Source Diagnostic Test: LDV Measured Flow Field Results
,
2002
.
[11]
Richard P. Woodward,et al.
Acoustical evaluation of the NASA Lewis 9 by 15 foot low speed wind tunnel
,
1992
.