The paper presents numerical and experimental results for a low speed compressor cascade with bleed air removal at the endwall. The aerofoil design is representative for a stator blade in a modern high pressure compressor near the casing wall. Secondary air is commonly supplied by simple bleed geometries downstream of stator rows. The focus of the present investigation was the systematic development of a passage integrated bleed configuration. With the assumption of an invariable bleed mass flow rate it should be designed to provide an advantageous effect on the main flow. Furthermore, a high pressure recovery in the bleed flow was aspired. Steady 3D RANS simulations were performed using the Spalart-Allmaras turbulence model. In both numerical simulations and experiments, an improved performance was found. Beside reduced losses and increased pressure rise, the wake flow downstream of the customized bleed geometry was found to be more homogeneous with decreased deviations due to a favorable influence on the secondary flow.

Issue Section:
Research Papers
Topics:
Blades, Flow (Dynamics), Pressure, Compressors, Design, Vortices, Computational fluid dynamics, Turbulence, Cascades (Fluid dynamics)

References

1.
Cumpsty
,
N. A.
,
2004
,
Compressor Aerodynamics
,
Krieger
,
Malabar, FL
.
2.
Gomes
,
R. A.
,
Schwarz
,
C.
, and
Pfitzner
,
M.
,
2005
, “
Aerodynamic Investigations of a Compressor Bleed Air Configuration Typical for Aeroengines
,”
Proceedings of XVII ISABE
,
Munich
, September 4–9,
Paper No. ISABE-2005-1264
.
3.
Schwarz
C.
,
2005
, “
Aerodynamische Untersuchungen an Abblase-Luftsystemen mehrstufiger Axialverdichter
,”
Ph.D. thesis
,
Universität der Bundeswehr
,
München, Germany
.
4.
Willis
,
B. P.
,
Davis
,
D. O.
, and
Hingst
,
W. R.
,
1995
, “
Flow Coefficient Behaviour for Boundary Layer Bleed Holes and Slots
,”
Lewis Research Center
,
OH
,
NASA Technical Memorandum No. 95-0031
.
5.
Leishman
,
B. A.
,
Cumpsty
,
N. A.
, and
Denton
,
J. D.
,
2007
, “
Effects of Bleed Rate and Endwall Location on the Aerodynamic Behaviour of a Circular Hole Bleed Off-Take
,”
ASME J. Turbomach.
,
129
,
pp.
645
658
.10.1115/1.2752191
Google Scholar
Crossref
Search ADS
 
6.
Leishman
,
B. A.
,
Cumpsty
,
N. A.
, and
Denton
,
J. D.
,
2007
, “
Effects of Inlet Ramp Surfaces on the Aerodynamic Behaviour of Bleed Hole and Bleed Slot Off-Take Configurations
,”
ASME J. Turbomach.
,
129
,
pp.
659
668
.10.1115/1.2752192
Google Scholar
Crossref
Search ADS
 
7.
Leishman
,
B. A.
, and
Cumpsty
,
N. A.
,
2007
, “
Mechanism of the Interaction of a Ramped Bleed Slot With the Primary Flow
,
ASME J. Turbomach.
,
129
,
pp.
669
678
.10.1115/1.2752193
Google Scholar
Crossref
Search ADS
 
8.
Gümmer
,
V.
,
Goller
,
M.
, and
Swoboda
,
M.
,
2008
, “
Numerical Investigations of Endwall Boundary Layer Removal on Highly-Loaded Axial Compressor Blade Rows
,”
ASME J. Turbomach.
,
130
,
pp.
115
124
.10.1115/1.2749297
Google Scholar
Crossref
Search ADS
 
9.
Frick
,
C. W.
,
Davis
,
W. F.
,
Randall
,
L. M.
, and
Mossman
,
E. A.
,
1945
, “
An Experimental Investigation of NACA Submerged Duct Entrances
,”
NACA ACR 5I20
,
Ames Aeronautical Laboratory
,
Washington, DC
.
10.
NUMECA
,
2009
,
Users Manual Flow Integrated Environment™/Turbo v8.3-1
,
Brussels, Belgium
.
11.
Nerger
,
D.
,
2009
, “
Aktive Strömungsbeeinflussung in ebenen Statorgittern hoher aerodynamischer Belastung durch Ausblasen
,”
Ph.D. thesis
,
Technische Universität Braunschweig
,
Braunschweig, Germany
.
12.
Pönick
,
S.
,
Kožulović
,
D.
,
Radespiel
,
R.
,
Becker
,
B.
, and
Gümmer
,
V.
,
2009
, “
Numerical and Experimental Studies of the Flow Field Details on a Cascade With Endwall Part-Clearance
,”
ETC2009
, Noordwijkerhout, Netherlands, October 4-7.
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