In order to advance the understanding of the fundamental mechanisms of axial skewed slot casing treatment and their effects on the subsonic axial-flow compressor flow field, the coupled unsteady flow through a subsonic compressor rotor and the axial skewed slot was simulated with a state-of-the-art multiblock flow solver. The computational results were first compared with available measured data, that showed the numerical procedure calculates the overall effect of the axial skewed slot correctly. Then, the numerically obtained flow fields were interrogated to identify the physical mechanism responsible for improvement in stall margin of a modern subsonic axial-flow compressor rotor due to the discrete skewed slots. It was found that the axial skewed slot casing treatment can increase the stall margin of subsonic compressor by repositioning of the tip clearance flow trajectory further toward the trailing of the blade passage and retarding the movement of the incoming∕tip clearance flow interface toward the rotor leading edge plane.

1.
Adamczyk
,
J. J.
,
Celestina
,
M. L.
, and
Greitzer
,
E. M.
, 1993, “
The Role of Tip Clearance in High-Speed Fan Stall
,”
ASME J. Turbomach.
0889-504X,
115
, pp.
28
38
.
2.
Hoying
,
D. A.
,
Tan
,
C. S.
,
Vo
,
H. D.
, and
Greitzer
,
E. M.
, 1999, “
Role of Blade Passage Flow Structures in Axial Compressor Rotating Stall Inception
,”
ASME J. Turbomach.
0889-504X,
121
, pp.
735
742
.
3.
Takata
,
H.
, and
Tsukuda
,
Y.
, 1977, “
Stall Margin Improvement by Casing Treatment—Its Mechanism and Effectiveness
,”
ASME J. Eng. Power
0022-0825,
99
, pp.
121
133
.
4.
Greitzer
,
E. M.
,
Nikkanen
,
J. P.
, and
Haddad
,
D. E.
,
Mazzawy
,
R. S.
, and
Joslyn
,
H. D.
, 1979, “
A Fundamental Criterion for the Application of Rotor Casing Treatment
,”
ASME J. Fluids Eng.
0098-2202,
101
, pp.
237
243
.
5.
Smith
,
G. D. J.
, and
Cumpsty
,
N. A.
, 1984, “
Flow Phenomena in Compressor Casing Treatment
,”
ASME J. Eng. Gas Turbines Power
0742-4795,
106
, pp.
532
541
.
6.
Thompson
,
D. W.
,
King
,
P. I.
, and
Robe
,
D. C.
, 1998, “
Experimental Investigation of Stepped Tip Gap Effects on the Performance of a Transonic Axial-Flow Compressor Rotor
,”
ASME J. Turbomach.
0889-504X,
120
, pp.
477
486
.
7.
Qing
,
Y.
,
Qiushi
,
L.
, and
Ling
,
L.
, 2002, “
The Experimental Researches on Improving Operating Stability of a Transonic Fan
,” ASME Paper No. 2002-GT-30640.
8.
Rabe
,
D. C.
, and
Hah
,
C.
, 2002, “
Application of Casing Circumferential Grooves for Improved Stall Margin in a Transonic Axial Compressor
,” ASME Paper No. 2002-GT-30641.
9.
Wilke
,
I.
, and
Kau
,
H.-P.
, 2002, “
A Numerical Investigation of the Influence of Casing Treatments on the Tip Leakage Flow in a HPC Front Stage
,” ASME Paper No. 2002-GT-30642.
10.
Lu
,
X.
,
Zhu
,
J.
, and
Chu
,
W.
, 2005, “
Numerical and Experimental Investigation of Stepped Tip Gap Effects on a Subsonic Axial-Flow Compressor Rotor
,”
Proc. Inst. Mech. Eng., Part A
0957-6509,
219
, pp.
605
615
.
11.
Shabbir
,
A.
, and
Adamczyk
,
J. J.
, 2004, “
Flow Mechanism for Stall Margin Improvement Due To Circumferential Casing Grooves On Axial Compressors
,” ASME Paper No. 2004-GT-53903.
12.
Wilke
,
I.
, and
Kau
,
H.-P.
, 2004, “
A Numerical Investigation of the Flow Mechanisms in a HPC Front Stage with Axial Slots
,”
ASME J. Turbomach.
0889-504X,
126
, pp.
339
349
.
13.
Hall
,
E. J.
,
Crook
,
A. J.
, and
Delaney
,
R. A.
, 1994, “
Aerodynamic Analysis of Compressor Casing Treatment With a 3-D Navier–Stokes Solver
,” AIAA Paper No. 94-2796.
14.
Yang
,
H.
,
Nuernberger
,
D.
,
Nicke
,
E.
, and
Weber
,
A.
, 2003, “
A. Numerical Investigation of Casing Treatment Mechanisms With a Conservative Mixed-Cell Approach
,” ASME Paper No. 2003-GT-38483.
15.
Lu
,
X.
,
Chu
,
W.
, and
Zhang
,
Y.
, 2006, “
A Numerical Investigation of the Interaction Between the Casing Treatment and Tip Leakage Flow in a Transonic Compressor Rotor
,”
Journal of Xi’an Jiaotong University
,
40
(
11
), pp.
1357
1360
.
16.
Lu
,
X.
,
Chu
,
W.
,
Zhu
,
J.
, and
Wu
,
Y.
, “
Mechanism of the Interaction Between Casing Treatment and Tip Leakage Flow in a Subsonic Axial Compressor
,” ASME Paper No. 2006-GT-90077.
17.
Lu
,
X.
,
Chu
,
W.
, and
Zhu
,
J.
, 2006, “
Application of Steady Micro Tip Injection for Improved Stall Margin in a Subsonic Axial Compressor
,”
Int. J. Rotating Mach.
1023-621X, pp.
1
11
.
18.
NUMECA Int
, 2003, “
NUMECA’s Flow Integrated Environment for Turbomachinery and Internal Flows
,” User manual version 6.1-1, NUMECA International, 5 Avenue Franklin Roosevelt, 1050 Brussels, Belgium.
19.
Vo
,
H. D.
,
Tan
,
C. S.
, and
Greitzer
,
E. M.
, 2005, “
Criteria for Spike Initiated Rotating Stall
,” ASME Paper No. 2005-GT-68374.
20.
Khalid
,
S. A.
,
Khalsa
,
A. S.
,
Waitz
,
I. A.
,
Tan
,
C. S.
,
Greitzer
,
E. M.
,
Cumpsty
,
N. A.
,
Adamczyk
,
J. A.
, and
Marble
,
F. E.
, 1998, “
Endwall Blockage in Axial Compressors
,” ASME Paper No. 1998-GT-188.
You do not currently have access to this content.