mirosław witos, michal wachlaczenko outline: air force ... · at different times of work and the...
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Expert System to Support Operational Safety of the TS-11
“Iskra” Aircraft and Overhauls of the SO-3 Engines
Mirosław WITOS, Michal WACHLACZENKO
Air Force Institute of Technology
Warsaw, Poland
7th International Symposium on NDT in Aerospace 16 – 18 November 2015, Bremen, Germany
Mo4-A7
Outline: Introduction Motivation Fatigue problem of the SO-3 engines Tip Timing Method Application More then 20 years of experience Conclusion
1F mode1F mode
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How to detect level of fatigue of critical elements before the accident?
Introduction Some fatigue problems of SO-3 turbo jet engine
What prevention strategy (i.a. NDT and SHM methods) should be used?
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Uncontroled blade fatigue:
- is a threat for service safety
- limits turbomachinery life time
- increases maintenance costs
Motivation
Compressor blades’ fatigue and crack
Reliability = Blades properties & Operating conditions
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Motivation
Fatigue problems of compressor blades = {LCF, HCF, VHCF}
Tp > 30 godzTp > 30 godzTp > 30 hours
„Fish eye”
Tp < 30 minTp < 30 min
During TBO 1F mode: N = 3 – 6 Giga cycles;
1T mode: N = 10 – 25 Giga cycles
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Motivation
Compressor blade - the effect of closing the crack’s gap
Disadvantages of classic NDT methods: - High man-hour consumption - Probability of detection (POD) for blades is dependent on the time after stopping the engine.
VT – crack or scratch?
15 mm
UT method: After engine stopped: 15 mm 16 hour after stoped: 5 mm 76 hour after stopped: no failure mode!
the resolution: < 0.05 mm
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Structural errors of blades SO-3 engine, 1st stage of compressor
0
200
400
600
800
1000
7000 8000 9000 10000 11000 12000 13000 14000 15000 16000n [rpm]
sn [MPa]
Normal level
High level (bird)
III harm.
II harm.
Elastic
limit
Yield point
Tp < 30 min
High stress level Tp > 30 hours
Normal
stress level
nucleation
1. Is the blade cracked? Yes: engine repair, preventive actions No:
2. Is the blade overloaded? Yes: Special NDT procedure No: Normal NDT procedure
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Overhaul problems
1. The time from engine stop to NDT of blades: a few weeks/months.
Required additional procedure (annealing) to open cracks before NDT.
3. Quality Guarantee made repair: typically 1 year.
The required procedure for documenting the results of NDT and minimizing
the human factors.
2. Heterogeneity of material fatigue: the blades of different production batches,
at different times of work and the history of material effort.
Required additional procedure to detect material overload.
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Engine user
Mission
Loads
Material effort
& residual stress
Modal property
(C, K, M)
Compressor blades
s(w, t)
e(w, t) dC(t)
dK(t)
dC(t)
Modal property of
dynamic phenomena
Operating
range
Engine
Fatigue observer (sensitive NDT&SHM)
Fatigue control (diagnose & recommendation)
Fuel system adjustment
Correct of operating range
Active control of blade fatigue – Don’t wait for crack!
Environment
condition
T(n,H,V)
r(H,V)
The methodology has been implemented in aviation Polish armed forces since 1993.
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Tip Timing
OBSERVER
ENGINE HEALTH (fuel system, bearings, rotor resonance)
Vibration level of all
blades in the same time
(Campbell, 1924)
Disadvantageous dynamic
phenomena (stall, surge, flutter, resonance)
Blades health (early phase of cracking)
Disk health (early phase of cracking)
Blade stress (TOA & NSMS systems)
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INPUT
UNIT
w
TRANSDUCER
MEASUREMENT
UNIT
ERRORS
CORRECTION
&
SIGNAL
DECOMPOSITION
ADVANCED
SIGNAL
ANALYSIS
&
MACHINE
DIAGNOSIS
Code(k)
TOA(k)
Blades
Disk
Rotor
Fuel unit
Shaft
Bearings
Flow dynamics
Tip timing method
)()()()( tIttt PA www
BN
2min
min
0
)()(
ww dk RR
clock
avg
B
clock
B
tkCodekTOA
t
ktTrunckCode
w
w
)()(
1
1)()( min
TTM – method of getting complex data (aperiodic, periodic and noise parts) from rotational speed signal that gives an ability of decreasing number of sensors when designing complex data processing and acquisition algorithms.
fclock=10-350 MHz A(k) P(k) I(k)
S= A + P+ I
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TTM measuring time of arrival (TOA) of flexible and vibrating blades
– irregular signal digitizing (sampling)
Tip timing method
)()(1
)(1)(
k
L
k
kconstkTOA
avg
TB
w
w
Measurement data gives THREE UNKNOWNS:
rotational speed of ideal stiffness rotor wavg
blades jitter (vibration spectrum) B
rotor jitter (rotational speed spectrum of real rotor) w
kkkkkk
kkkkk
SOWSWPUP
DPKBiPB
w
Blade jitter components: P – pitch errors;
Bi – blade vibration;
C – case vibration;
DP – dynamic phenomena of TTM sensor
Rotor jitter components: UP – influence of control unit;
WP – transverse vibration of rotor;
WS – torsional rotor vibration of rotor;
O – alignment error (eccentricity)
S – alignment error (misalignment)
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dn/dt > 0
dn/dt < 0
Decreasing risk level of blades HCF & LCF
is possible by correct overhaul and operation
errors (i.e. shape of operating area changes)
Operating area
‘Actively’ control of blade HCF & LCF
Flow dynamics
• Flow clocking (interaction with stator blades)
• Stall
• Surge
• Flutter
• Combustion instability
• Foreign object in inlet
Kinematic loads: - Centrifugal force
- Compressor non-axial
- Rotor unbalance
- Compressor speed fluctuation
- Structure resonances
SO-3 engines: Since 1991 the statistical mean time between fatigue-offs
of blades has been increased: 15x for calendar-based data,
12x on the hour-referred data.
x
P(n,x,z) Tq(n,x,z) y
Pc(n)
Pu(n,re)
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Tip timing method
The signal from the TTM
The signal from the strain gauge
SUITABLE is OBJECTTS2dt
iPar2d
,dt
idPar
,i
ParCVm1,2,...,i
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SNDŁ-1b/SPŁ-2b diagnostic system Since 1993
Blade Excessive Vibration Device
SNDŁ-1b
(on-board unit)
Blade Crack Signaling Device
SPŁ-2b
(ground equipment)
SOFTWARE comprises: - INFO database
- MEASURING database
- MODELS database
- DIAGNOSTIC RULES database
- Log
Monitoring blade vibration spectra every:
- 50 hours – Low LCF risk
- 25 hours – Medium LCF risk
- 12 hours – High LCF & HCF risk
In 1997 a real time module on the basis of the Keithley's CTM-PER counter card has been added to the already existing diagnostic system and is now used in the repair works.
VR sensor
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SjBjj eee
Numerical signal analysis SPŁ-2b software
Base equations
EXPERT OF
FUEL SYSTEM
COMPRESSOR
BLADE
VIBRATION
ANALYSIS
BEARING
SYSTEM
TECHNICAL
CONDITION
ANALYSIS
j
jjjCODE
constnn e
Time consumption of one engine test < 0.5 man-hour (PC 486DX2)
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The expert system for ‘active control’ of fatigue and …
ENGINE
GROUND PERSONNEL
PILOT OVERHAUL
AFIT
Blades vibration Blades vibration
Main data base New failure procedures
New symptoms of operation errors
New symptoms of overhaul errors
(since 1997)
SNDŁ-1b
SPŁ-2b
CTM-PER/SPŁ-2b
AFIT assistance to users of SO-3 engine
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Point spectrum of blade vibration SO-3 engine
PRIMARY STANDARD
28 blades made of the 18H2N4WA steel
Mode frequencies:
350 Hz (flexible vibration), Q 400
1380 Hz (flexible vibration), Q 30
1890 Hz (torsional vibration), Q > 1000
Sampling frequency ws = 200 - 1650 rad/s
SYNCHRONOUS RESONANCE ASYNCHRONOUS RESONANCE
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Tip timing observer Stall & Surge
Blades response depends on both rotor and support modal properties
Deep surge
Rotor vibration Blade 1F: 2.5xfR
AFTER SURGE
Shallow surge
Stall BEFORE SURGE
Inlet blocked surge Surge limit identification (p3 signal disconnected from FCU )
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Bench tests of blade cracking
The years 1989 - 1993
3x
2x
II STAGE
PHASE
MAPPING (linear SDOF)
fR
fB I STAGE
CAMPBELL DIAGRAM
22 )()0()( RBB fnBfnf
2x
3x No opened crack non-linear increase?
Prognosis: 50 engine work hour (over 9x107 HCF & 100 LCF cycles, 1/8 TBO)
2x
3x
LPF
5 minute before
blade break off
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Thanks to the active control of the user over the material
fatigue process the following have been eliminated:
Cracking of compressor blades in operation despite the
existence of uncorrected design flaws and high LCF risk
in the take-off range.
The statistical time between blade cracks has been prolonged for over 1500% (despite the existing structural error)
Other fatigue problems occurring in the SO-3 engines
have also been minimised.
Safety results More then 20 years of experience
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Maintenance problems of fuel system
REPEATABILITY (INDIVIDUAL CONTROL)
HIDDEN DEFECT
ERROR CONTROL
(SURGE)
I
TTTconst
dt
dn
WAWFfnnbdt
dnna
dt
nd
FST
,)()(2
2
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F-34 fuel „Apply jelly” phenomena
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n TANGENTIAL VIBRATION OF ENGINE
Complex analysis – bearing damage
BEARING DAMAGE
PRIMARY STANDARD
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Ex post facto analysis
Crash, 11.10.2005
0
0.05
0.1
0.15
0.2
0.25
9300 9500 9700 9900 10100 10300
n [rpm]
Adec
[mm]
Flutter is danger not only for blades!
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Conclusion
1. Over the 20-year operation of the SNDŁ-1b/SPŁ-2b diagnostic system
proved that the Tip Timing Method is very effective as:
contactless method of non-destructive testing and health
monitoring of rotating blades,
objective method for monitoring the operation quality and repairs of
the SO-3 engines.
2. The described method is of great importance to flight safety and
may be recommended as a completion of the existing systems of
diagnosing engines and power turbines, in particular, to identify the
LCF, HCF, VHCF and TMF of critical components.
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Expert System to Support Operational Safety of The TS-11
“Iskra” Aircraft and Overhauls of the SO-3 Engines
Mirosław WITOS, Michal WACHLACZENKO
Air Force Institute of Technology
Warsaw, Poland
7th International Symposium on NDT in Aerospace 16 – 18 November 2015, Bremen, Germany
Mo4-A7
Thank you for your attention
Any questions?
More info: http://www.researchgate.net/profile/Miroslaw_Witos http://www.researchgate.net/profile/Michal_Wachlaczenko