Abstract

The application of inlet air fogging to gas turbine engines for power augmentation has become common practice, with more than 1000 installations worldwide, including a large number of advanced gas turbines. In this paper an experimental investigation and empirical analysis of key operating parameters on the performance of impaction pin nozzles will be investigated. To date, no such correlation is available for impaction pin nozzles, which are currently used in about 75% of this type of applications. The correlations are developed from a series of experiments conducted in a wind tunnel equipped with the Malvern Spraytec droplet size measurement system. The conducted analysis covered a wide range of the relevant parameters. Mainly, the water flow rate from the nozzle orifice was (0.00126 to 0.00063 ls1: 0.02 gpm to 0.1 gpm), the operating pressure was (34.5 to 204.1 bars: 500 to 3000 psi), the airflow velocity was (1.5 to 15.2 ms1: 295 to 3000 fpm), the distance between the nozzle orifice and the location of measurement was (0.0127 to 0.508 m: 0.5 to 20 in.). Other parameters such as the plume spray cone angle and the surrounding ambient psychrometric conditions, which may affect the droplet size for impaction pin nozzles, is also discussed.

1.
Chaker
,
M.
,
Meher-Homji
,
C. B.
, and
Mee
,
T. R.
, III
, 2002, “
Inlet Fogging of Gas Turbine Engines—Part A: Fog Droplet Thermodynamics, Heat Transfer and Practical Considerations
,” ASME Papers No. 2002-GT-30562, 30563, and 30564.
2.
Chaker
,
M.
,
Meher-Homji
,
C. B.
, and
Mee
,
T. R.
, III
, 2002, “
Inlet Fogging of Gas Turbine Engines—Part B: Fog Droplet Sizing Analysis, Nozzle Types, Measurement and Testing
,” ASME Papers No. 2002-GT-30562, 30563, and 30564.
3.
Chaker
,
M.
,
Meher-Homji
,
C. B.
, and
Mee
,
T. R.
, III
, 2002, “
Inlet Fogging of Gas Turbine Engines—Part C: Fog Behavior in Inlet Ducts, CFD Analysis and Wind Tunnel Experiments
,” ASME Papers No. 2002-GT-30562, 30563, and 30564.
4.
Chaker
,
M. A.
,
Meher-Homji
,
C. B.
, and
Mee
,
T.
, III
, 2003, “
Inlet Fogging of Gas Turbine Engines—Experimental and Analytical Investigations on Impaction Pin Fog Nozzle Behavior
,” ASME Paper No. GT2003-38801.
5.
Meher-Homji
,
C. B.
, and
Mee
,
T. R.
, 1999, “
Gas Turbine Power Augmentation by Fogging of Inlet Air
,”
Proceedings of the 28th Turbomachinery Symposium
, Houston, TX, September.
6.
Meher-Homji
,
C. B.
, and
Mee
,
T. R.
, III
, 2000, “
Inlet Fogging of Gas Turbine Engines—Part B: Practical Considerations, Control and O&M Aspects
,” ASME Turbo Expo 2000, Munich May 2000. ASME Paper No. 2000-GT-0308.
7.
Bhargava
,
R.
,
Bianchi
,
M.
,
Melino
,
F.
,
Peretto
,
A.
Meher-Homji
,
C. B.
and
Chaker
,
M. A.
, 2003, “
Inlet Fogging for Gas Turbine Power Augmentation, a State of the Art Review
,”
Proceedings of the International Conference on Power Engineering—03(ICOPE-03)
,
9
13
, November 2003, Kobe, Japan
8.
Hill
,
P. G.
, 1963, “
Aerodynamic and Thermodynamic Effects of Coolant Ingestion on Axial Flow Compressor
,”
Aeronaut. Q.
0001-9259,
14
(
4
) pp.
333
348
.
9.
Utamura
,
M.
,
Kuwahara
,
T.
,
Murata
,
H.
Horii
,
N.
, 1999, “
Effects of Intensive Evaporative Cooling on Performance Characteristics of Land-Based Gas Turbine
,”
Proceedings of the ASME International Joint Power Generation Conference
.
10.
Lefebvre
,
A. H.
, 1989,
Atomization and Spray
,
Taylor & Francis
, New York.
11.
Chaker
,
M.
, 2001, “
Effect of Airflow Velocity on Droplet Size for Gas Turbine Fogging Nozzles
,”
ILASS Americas, 13th Annual Conference on Liquid Atomization and Spray Systems
, Madison, WI, May.
12.
Savic
,
S.
,
Mitsis
,
G.
,
Hartel
,
C.
,
Khaidarov
,
P.
, and
Pfeiffer
,
P.
, 2002, “
Spray Interaction and Droplet Coalescence in Turbulent Air-Flow—An Experimental Study with Application to Gas Turbine High Fogging
,” ILASS Europe, Zaragoza, Spain, September 9.
13.
Harvill
,
T. L.
, and
Holve
,
D. J.
, 1998, “
Size Distribution Measurements Under Conditions of Multiple Scattering With Application to Sprays
,” Ilass, Sacramento, CA.
14.
Ward-Smith
,
R. S.
,
Wedd
,
M. W.
,
Jones
,
R. M.
, and
Higgs
,
D. M. J.
, 1998, “
A Novel Measurement Technique For Determining Continuous Particle Size Distributions of Concentrated Sprays
,” Ilass Europe, July 6–8, Manchester, England.
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