Obtaining the right pitch in turbomachinery blading is crucial to efficient and successful operations. Engineers adjust the rotor’s pitch angle to control the production or absorption of power. Even for low speed fans this is a promising tool. This paper focuses on the inception and the evolution of the flow instabilities in the tip region which drive the stall onset in low speed axial fans. The authors conducted an experimental study to investigate the inception patterns of rotating stall evolution at different rotor blade stagger-angle settings with the aim of speculating on stable operating margin. The authors drove the fan to stall at the design stagger-angle setting and then operated the variable pitch mechanism in order to recover the unstable operation. They measured pressure fluctuations in the tip region of the low-speed axial-flow fan fitted with a variable pitch in motion mechanism, with flush mounted probes. The authors studied the flow mechanisms for spike and modal stall inceptions in this low-speed axial-flow fan which showed relatively small tip clearance. The authors cross-correlated the pressure fluctuations and analyzed the cross-spectra in order to clarify blade pitch, end wall flow, and tip-leakage flow influences on stall inception during the transient at the rotor blades’ different stagger-angle settings. The authors observed a rotating instability near the maximum pressure-rise point at both design and low stagger-angle settings. The stall inception patterns were a spike type at the design stagger-angle setting as a result of the interaction between the incoming flow, tip-leakage flow and end wall backflow.

References

1.
Greitzer
,
E. M.
,
, 1980, “
Review - Axial Compressor Stall Phenomena
,”
J. Fluids Eng.
,
102
, pp.
134
151
.
2.
Day
,
I. J.
, and
Cumpsty
,
N. A.
, 1978, “
The Measurement and Interpretation of Flow within Rotating Stall Cells in Axial Compressors
,”
J. Mech. Eng. Sci.
,
20
, pp.
101
114
.
3.
Moore
,
F. K.
, 1984, “
A Theory of Rotating Stall of Multistage Compressors, Parts I-III
,”
ASME J. Eng. Power
,
106
, pp.
313
336
.
4.
Emmons
,
H. W.
,
,
Pearson
,
C. E.
,
, and
Grant
,
H. P.
,
, 1955, “
Compressor surge and stall propagation”
,
Transactions of the ASME
,
77
, pp.
455
469
.
5.
Gravdahl
,
J. T.
, and
O.
Egeland.
, 1999,
Compressor Surge and Rotating Stall: Modeling and Control
,
Springer-Verlag
,
London, UK
.
6.
Cumpsty
,
N. A.
, 1989, “
Part-Circumference Casing Treatment and the Effect on Compressor Stall
,” ASME Paper No. 89-GT.
7.
Rippl
,
A.
, 1995, “
Experimentelle Untersuchungen zuminstationaren Betriebsverhahen an der Stabilitarsgrenze eines mehrstufigen transsonischen Verdichters
,” Ph.D. Dissertation, Ruhr-Universitat Bochum.
8.
Sheard
,
A. G.
, and
Corsini
,
A.
, 2011, “
The Impact of an Anti-Stall Stabilisation Ring on Industrial Fan Performance: Implications for Fan Selection
,” ASME Paper No. GT2011-45187.
9.
Corsini
,
A.
,
Minotti
,
S.
,
Sciulli
,
F.
, and
Sheard
A. G.
, 2009, “
The Role of Computational Methods in the Development of an Aero-Acoustic Design Methodology: Application to a Family of Large Industrial Fans
,”
14th Conference on Modelling Fluid Flows
,
Budapest, Hungary
.
10.
Sheard
,
A. G.
, and
Jones
,
N. M.
, 2008, “
Approval of High-Temperature Emergency Tunnel-Ventilation Fans: The Impact of ISO 21927-3
,”
Proceedings of the ITA-AITEES World Tunnel Congress and 34th General Assembly
,
Agra
,
India
.
11.
EN12101-3, 2002, “Smoke and Heat Control Systems. Specification for Powered Smoke and Heat Exhaust Ventilators.”
12.
ISO 21927-3, 2006, “Smoke and Heat Control Systems - Part 3: Specification for Powered Smoke and Heat Exhaust Ventilators.”
13.
Camp
,
T. R.
, and
Day
,
I. J.
, 1998, “
A Study of Spike and Modal Stall Phenomena in a Low-Speed Axial Compressor
,”
J. Turbomach.
,
120
, pp.
393
401
.
14.
Vo
,
H. D.
,
Tan
,
C. S.
, and
Greitzer
E. M.
, 2005, “
Criteria for Spike Initiated Rotating Stall
,” ASME Paper No. GT2005-68374.
15.
Deppe
,
A.
,
Saathoff
,
H.
, and
Stark
,
U.
, 2005, “
Spike-Type Stall Inception in Axial Flow Compressors
,”
6th Conference on Turbomachinery
,
Fluid Dynamics and Thermodynamics
,
Lille, France
.
16.
Bright
,
M. M.
,
Qammar
,
H.
,
Vhora
,
H.
, and
Schaffer
,
M.
, 1998, “
Rotating Pip Detection and Stall Warning in High-Speed Compressors Using Structure Function
,”
Proceedings of AGARD RTO AVT Conference
.
17.
Okada
,
K.
, 1987, “
Experiences with Flow-Induced Vibration and Low Frequency Noise due to Rotating Stall of Centrifugal Fan
,”
J. Low Freq. Noise Vib.
,
6
(
2
), pp.
76
87
.
18.
Mongeau
,
L.
,
Thompson
,
D. E.
, and
McLaughlin
,
D. K.
, 1995, “
A Method for Characterizing Aerodynamic Sound Sources in Turbomachines
,”
J. Sound Vib.
,
18
(
3
), pp.
369
389
.
19.
Kameier
,
F.
, and
Neise
W.
, 1997, “
Rotating Blade Flow Instability as a Source of Noise in Axial Turbomachines
,”
J. Sound Vib.
,
203
, pp.
833
853
.
20.
General Electric Company (Cincinnati, OH)
, 1975, “
Fan with Variables Pitch Blades and Translating Bearing Attuation System
,” US Patent References 2648387.
21.
Flakt Woods, 2011, “Flakt Woods Online Catalog,” http://www.flaktwoods.com/http://www.flaktwoods.com/
22.
Langston
,
L. S.
, 2009, “
Fitting a Pitch
,”
ASME Mech. Eng. Mag.
,
131
(
12
), pp.
38
42
.
23.
ISO 5801, 2007, “Industrial Fans—Performance Testing Using Standardized Airways.”
24.
ISO IEC60651, 1994, “Specification for Sound Level Meters.”
25.
Greitzer
,
E. M.
, 1976, “
Surge and Rotating Stall in Axial Flow Compressors, Part I: Theoretical Compression System Model
,”
ASME J. Eng. Power
,
98
, pp.
190
198
.
26.
Bianchi
,
S.
,
Sheard
,
A. G.
,
Corsini
,
A.
, and
Rispoli
,
F.
, 2010, “
Detection of Stall Regions in a low Speed Axial Fan. Part I-Azimuthal Acoustic Measurements
,” ASME Paper No. GT2010-22753.
27.
Corsini
,
A.
, and
Rispoli
,
F.
, 2005, “
Flow Analyses in a High-Pressure Axial Ventilation Fan With a Non-Linear Eddy-Viscosity Closure
,”
Int. J. Heat Fluid Flow.
,
26
(
3
), pp.
349
361
.
28.
Boerrigter
,
H. L.
, 1996, “
PreMeSys: A Simulation Program to Determine the Frequency and Time Response of a Pressure Measurement System
,” VKI Technical Memorandum.
29.
Carbonaro
,
M.
,
Anthoine
,
J.
,
Arts
,
T.
,
Boerrigter
,
H. L.
,
Buchlin
,
J.-M.
,
Carbonaro
,
M.
,
Degrez
,
G.
,
Dénos
,
R.
,
Fletcher
,
D.
,
Olivari
,
D.
,
Riethmuller
,
M. L.
, and
Van den Braembussche
,
R.
, 2009,
Measurement Techniques in Fluid Dynamics - An Introduction
,
von Karman Institute for Fluid Dynamics
,
Rhode Saint Genèse, Belgium
.
30.
Zhang
,
H. W.
,
Deng
,
X. Y.
,
Lin
,
F.
,
Chen
,
J. Y.
, and
Huang
,
W. G.
, 2005, “
Unsteady Tip Leakage Flow in an Isolated Axial Compressor Rotor
,”
J. Therm. Sci.
,
14
(
3
), pp.
265
274
.
31.
Day
,
I. J.
, 1993, “
Stall Inception in Axial Flow Compressors
,”
J. Turbomach.
,
115
, pp.
1
9
.
32.
Outa
,
E.
, 2005, “
Rotating Stall and Stall-Controlled Performance of a Single Stage Subsonic Axial Compressor
,”
J. Therm. Sci.
,
15
(
1
), pp.
1
13
.
33.
Leinhos
,
D. C.
,
Schmid
,
N. R.
, and
Fottner
,
L.
, 2001, “
The Influence of Transient Inlet Distortions on the Instability Inception of a Low Pressure Compressor in a Turbofan Engine
,”
J. Turbomach.
,
123
, pp.
1
8
.
34.
McDougall
,
N. M.
,
Cumpsty
,
N. A.
, and
Hynes
,
T. P.
, 1990, “
Stall Inception in Axial Compressors
,”
J. Turbomach.
,
112
, pp.
116
123
.
35.
Sheard
,
A. G.
,
Corsini
,
A.
, and
Bianchi
,
S.
, “
Stall Warning in Low Speed Axial Fan by Visualization of Sound Signal
,” accepted to Journal of Engineering for Gas Turbines and Power, manuscript reference no. GTP-10-1168.
You do not currently have access to this content.