Large circumferential varying pressure levels produced by aerodynamic flow interactions between downstream stators and struts present a potential noise and stability margin liability in a compression component. These interactions are presently controlled by tailoring the camber and/or stagger angles of vanes neighboring the fan frame struts. This paper reports on the design and testing of a unique set of swept and leaned fan outlet guide vanes (OGVs) that do not require this local tailoring even though the OGVs are closely coupled with the fan frame struts and splitter to reduce engine length. The swept and leaned OGVs not only reduce core-duct diffusion, but they also reduce the potential flow interaction between the stator and the strut relative to that produced by conventional radial OGVs. First, the design of the outlet guide vanes using a single bladerow three-dimensional viscous flow analysis is outlined. Next, a two-dimensional potential flow analysis was used for the coupled OGV-frame system to obtain a circumferentially non-uniform stator stagger angle distribution to further reduce the upstream static pressure disturbance. Recognizing the limitations of the two-dimensional potential flow analysis for this highly three-dimensional set of leaned OGVs, as a final evaluation of the OGV-strut system design, a full three-dimensional viscous analysis of a periodic circumferential sector of the OGVs, including the fan frame struts and splitter, was performed. The computer model was derived from a NASA-developed code used in simulating the flow field for external aerodynamic applications with complex geometries. The three-dimensional coupled OGV-frame analysis included the uniformly-staggered OGVs configuration and the variably-staggered OGVs configuration determined by the two-dimensional potential flow analysis. Contrary to the two-dimensional calculations, the three-dimensional analysis revealed significant flow problems with the variably-staggered OGVs configuration and showed less upstream flow non-uniformity with the uniformly-staggered OGVs configuration. The flow redistribution in both the radial and tangential directions, captured fully only in the three-dimensional analysis, was identified as the prime contributor to the lower flow non-uniformity with the uniformly-staggered OGVs configuration. The coupled three-dimensional analysis was also used to validate the design at off-design conditions. Engine test performance and stability measurements with both uniformly- and variably-staggered OGVs configurations with and without the presence of inlet distortion confirmed the conclusions from the three-dimensional analysis.
Skip Nav Destination
ASME 1998 International Gas Turbine and Aeroengine Congress and Exhibition
June 2–5, 1998
Stockholm, Sweden
Conference Sponsors:
- International Gas Turbine Institute
ISBN:
978-0-7918-7862-0
PROCEEDINGS PAPER
Design and Testing of Swept and Leaned Outlet Guide Vanes to Reduce Stator-Strut-Splitter Aerodynamic Flow Interactions
A. R. Wadia,
A. R. Wadia
GE Aircraft Engines, Cincinnati, OH
Search for other works by this author on:
P. N. Szucs,
P. N. Szucs
GE Aircraft Engines, Cincinnati, OH
Search for other works by this author on:
K. L. Gundy-Burlet
K. L. Gundy-Burlet
NASA Ames Research Center, Moffet Field, CA
Search for other works by this author on:
A. R. Wadia
GE Aircraft Engines, Cincinnati, OH
P. N. Szucs
GE Aircraft Engines, Cincinnati, OH
K. L. Gundy-Burlet
NASA Ames Research Center, Moffet Field, CA
Paper No:
98-GT-070, V001T01A021; 13 pages
Published Online:
December 23, 2014
Citation
Wadia, AR, Szucs, PN, & Gundy-Burlet, KL. "Design and Testing of Swept and Leaned Outlet Guide Vanes to Reduce Stator-Strut-Splitter Aerodynamic Flow Interactions." Proceedings of the ASME 1998 International Gas Turbine and Aeroengine Congress and Exhibition. Volume 1: Turbomachinery. Stockholm, Sweden. June 2–5, 1998. V001T01A021. ASME. https://doi.org/10.1115/98-GT-070
Download citation file:
304
Views
Related Proceedings Papers
Related Articles
Design and Testing of Swept and Leaned Outlet Guide Vanes to Reduce Stator–Strut–Splitter Aerodynamic Flow Interactions
J. Turbomach (July,1999)
Experimental Investigation of the Effect of Bleed on the Aerodynamics of a Low-Pressure Compressor Stage in a Turbofan Engine
J. Turbomach (March,2024)
Bowed Stators: An Example of CFD Applied to Improve Multistage Compressor Efficiency
J. Turbomach (April,1997)
Related Chapters
Completing the Picture
Air Engines: The History, Science, and Reality of the Perfect Engine
Aerodynamic Performance Analysis
Axial-Flow Compressors
Later Single-Cylinder Engines
Air Engines: The History, Science, and Reality of the Perfect Engine