Abstract

Modern gas turbines present important temperature distortions in the core-engine flowpath, mainly in the form of hot and cold streaks imputed to combustor burners and components cooling systems. As they highly influence turbines performance and lifetime, the precise knowledge of the thermal field evolution through the combustor and the high-pressure turbine is fundamental. The majority of the past studies investigated streak migrations directly examining the thermal field, while a limited amount of experimental work employed approaches based on the detection of tracer gases. The latter approach provides a more detailed evaluation of the evolution and mixing of the different flows. However, the slow time response due to the employment of sampling probes and gas analyzers make the investigation of a whole measurement plane extremely time consuming. To tackle this issue, in this study, a commercial oxygen sensor element and its excitation/detection unit were integrated into a newly developed probe to carry out local tracer gas concentration measurements exploiting the fluorescence behavior. The probe was provided with a Kiel-like shield, a pressure port, and a thermocouple, to correct the readings in case of 3D flows with pressure, temperature, and velocity gradients. This article summarizes the probe development and calibration activities, with the characterization of its accuracy for different flow conditions. Finally, two probe applications are described: first, the probe was used to detect tracer gas concentrations on a jet flow; afterward, it was traversed on the interface plane between a nonreactive, lean combustor simulator, and the NGV cascade. The probe has proven to provide accurate and reliable measurements from both a quantitative and qualitative point of view even in highly 3D flow fields typical of gas turbines conditions.

References

1.
Butler
,
T. L.
,
Sharma
,
O. P.
,
Joslyn
,
H. D.
, and
Dring
,
R. P.
,
1989
, “
Redistribution of an Inlet Temperature Distortion in an Axial Flow Turbine Stage
,”
J. Propul. Power.
,
5
(
1
), pp.
64
71
.
2.
Munk
,
B. M.
, and
Prim
,
R.
,
1947
, “
On the Multiplicity of Steady Gas Flows Having the Same Streamline Pattern
,”
PNAS
,
33
, pp.
137
141
.
3.
Luque
,
S.
,
Kanjirakkad
,
V.
,
Aslanidou
,
I.
,
Lubbock
,
R.
, and
Rosic
,
B.
,
2014
, “
A New Experimental Facility to Investigate Combustor-Turbine Interactions in Gas Turbines With Multiple Can Combustors
,”
Proceedings of ASME Turbo Expo 2014: Turbine Technical Conference and Exposition
, Paper No. GT2014-26987.
4.
Barringer
,
M. D.
,
Thole
,
K. A.
, and
Polanka
,
M. D.
,
2009
, “
Effects of Combustor Exit Profiles on Vane Aerodynamic Loading and Heat Transfer in a High Pressure Turbine
,”
ASME J. Turbomach.
,
131
(
2
), p.
021008
.
5.
Barringer
,
M. D.
,
Thole
,
K. A.
, and
Polanka
,
M. D.
,
2007
, “
Experimental Evaluation of an Inlet Profile Generator for High-Pressure Turbine Tests
,”
ASME J. Turbomach.
,
129
(
2
), pp.
382
394
.
6.
El-Gabry
,
L. A.
,
Saha
,
R.
,
Fridh
,
J.
, and
Fransson
,
T.
,
2015
, “
Measurements of Hub Flow Interaction on Film Cooled Nozzle Guide Vane in Transonic Annular Cascade
,”
ASME J. Turbomach.
,
137
(
8
), p.
081004
.
7.
Cha
,
C. M.
,
Hong
,
S.
,
Ireland
,
P. T.
,
Denman
,
P.
, and
Savarianandam
,
V.
,
2012
, “
Experimental and Numerical Investigation of Combustor-Turbine Interaction Using an Isothermal, Nonreacting Tracer
,”
ASME J. Eng. Gas Turbines Power
,
134
(
8
), p.
081501
.
8.
Schmid
,
G.
,
Krichbaum
,
A.
,
Werschnik
,
H.
, and
Schiffer
,
H.-P.
,
2014
, “
The Impact of Realistic Inlet Swirl in a 1 1/2 Stage Axial Turbine
,”
Proceedings of ASME Turbo Expo 2014: Turbine Technical Conference and Exposition
, Paper No. GT2014-26716.
9.
Krichbaum
,
A.
,
Werschnik
,
H.
,
Wilhelm
,
M.
,
Schiffer
,
H.-P.
, and
Lehmann
,
K.
,
2015
, “
A Large Scale Turbine Test Rig for the Investigation of High Pressure Turbine Aerodynamics and Heat Transfer with Variable Inflow Conditions
,”
Proceedings of ASME Turbo Expo 2015: Turbine Technical Conference and Exposition
, Paper No. GT2015-43261.
10.
Werschnik
,
H.
,
Schneider
,
M.
,
Herrmann
,
J.
,
Ivanov
,
D.
,
Schiffer
,
H. P.
, and
Lyko
,
C.
,
2017
, “
The Influence of Combustor Swirl on Pressure Losses and the Propagation of Coolant Flows At the Large Scale Turbine Rig (LSTR): Experimental and Numerical Investigation
,”
Int. J. Turbomach. Propuls. Power
,
2
(
3
), pp.
1
18
.
11.
Ocean Insight
, “
Principles of Optical Dissolved Oxygen Measurements
𠇜 Ocean Insight: Tech Tip, https://www.oceaninsight.com/globalassets/catalog-blocks-and-images/app-notes/principles-of-optical-dissolved-oxygen-measurements.pdf
12.
Chu
,
C. S.
,
Lo
,
Y. L.
, and
Sung
,
T. W.
,
2011
, “
Review on Recent Developments of Fluorescent Oxygen and Carbon Dioxide Optical Fiber Sensors
,”
Photonic Sensors
,
1
(
3
), pp.
234
250
.
13.
Liu
,
T.
, and
Sullivan
,
J. P.
,
2005
,
Pressure and Temperature Sensitive Paints
,
Springer-Verlag Berlin Heidelberg
,
Heidelberg
.
14.
Dabhi
,
H.
,
Alla
,
S. K.
, and
Shahriari
,
M. R.
,
2010
, “
Smart Oxygen Cuvette for Optical Monitoring of Dissolved Oxygen in Biological Blood Samples
,”
Proceedings of SPIE 7576: Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications II
,
San Francisco, CA
,
Jan. 23–28
, vol.
7576
, p.
75761B
.
15.
Guenther
,
D.
, and
Yvette
,
M.
,
2015
, “
Noninvasive, Real-Time Monitoring of Oxygen and pH During E. coli Fermentation
,” Ocean Insight: Application Note, https://www.oceaninsight.com/globalassets/catalog-blocks-and-images/app-notes/noninvasive-monitoring-of-oxygen-and-ph-during-e.-coli-fermentation.pdf
16.
Panahi
,
A.
,
2009
, “
Fiber Optic Oxygen Sensor Using Fluorescence Quenching for Aircraft Inerting Fuel Tank Applications
,”
Proceedings of SPIE 7314: Photonics in the Transportation Industry: Auto to Aerospace II
,
Orlando, FL
,
Apr. 13–17
.
17.
Mendoza
,
E. A.
,
Kempen
,
C.
,
Sun
,
S.
, and
Esterkin
,
Y.
,
2014
, “
Highly Distributed Multi-Point, Temperature and Pressure Compensated, Fiber Optic Oxygen Sensors (FOxSense) for Aircraft Fuel Tank Environment and Safety Monitoring
,”
Proceedings of SPIE 9202: Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V
,
San Diego, CA
,
Aug. 17–21
, Vol.
9202
, SPIE, p.
92021M
.
18.
Jenny
,
P.
,
Lenherr
,
C.
,
Abhari
,
R. S.
, and
Kalfas
,
A.
,
2012
, “
Effect of Hot Streak Migration on Unsteady Blade Row Interaction in an Axial Turbine
,”
ASME J. Turbomach.
,
134
(
5
), p.
051020
.
19.
Persico
,
G.
,
Gaetani
,
P.
, and
Guardone
,
A.
,
2005
, “
Design and Analysis of New Concept Fast-Response Pressure Probes
,”
Meas. Sci. Technol.
,
16
(
9
), pp.
1741
1750
.
20.
Govardhan
,
M.
, and
Kumar
,
O. G.
,
2012
, “
Development of a Single Sensor Fast Response Probe for the Measurement of Unsteady Flow Behind an Axial Flow Rotor
,”
HKIE Trans. Hong Kong Inst. Eng.
,
19
(
2
), pp.
1
7
.
21.
Han
,
J. C.
, and
Rallabandi
,
A. P.
,
2010
, “
Turbine Blade Film Cooling Using PSP Technique
,”
Front. Heat and Mass Transf.
,
1
(
1
), pp.
1
21
.
22.
Kline
,
S.
, and
McClintock
,
F. A.
,
1953
, “
Describing Uncertainties in Single-Sample Experiments
,”
Mech. Eng.
,
75
(
1
), pp.
3
8
.
23.
Dimotakis
,
P. E.
, and
Dowling
,
D. R.
,
1990
, “
Similarity of the Concentration Field of Gas-Phase Turbulent Jets
,”
J. Fluid. Mech.
,
218
, pp.
109
141
.
24.
Mohri
,
K.
,
Luong
,
M.
,
Vanhove
,
G.
,
Dreier
,
T.
, and
Schulz
,
C.
,
2011
, “
Imaging of the Oxygen Distribution in an Isothermal Turbulent Free Jet Using Two-Color Toluene LIF Imaging
,”
Appl. Phys. B: Lasers. Opt.
,
103
(
3
), pp.
707
715
.
25.
Cheung
,
B. H.
, and
Hanson
,
R. K.
,
2010
, “
CW Laser-Induced Fluorescence of Toluene for Time-Resolved Imaging of Gaseous Flows
,”
Appl. Phys. B: Lasers. Opt.
,
98
(
2–3
), pp.
581
591
.
26.
Cubeda
,
S.
,
Bacci
,
T.
,
Mazzei
,
L.
,
Salvadori
,
S.
,
Facchini
,
B.
,
Fiorineschi
,
L.
, and
Volpe
,
Y.
,
2020
, “
Design of a Non-Reactive Warm Rig With Real Lean-Premix Combusto Swirlers and Film-Cooled First Stage Nozzles
,”
Proceedings of ASME Turbo Expo 2020: Turbimachinery Technical Conference and Exposition
, Paper No. GT2020-14186.
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