In this paper, wet compression effect on an eight-stage axial subsonic compressor is simulated by steady numerical methods. Special attention is paid to the compressor design operating condition and rotating stall boundary to contrast and analyze the changes, such as the compressor performance and the flow-field characteristics under dry and wet conditions. The motions of water droplets are also simulated and analyzed. The results indicate that wet compression could weaken or eliminate the flow separation; improve the flow capacity, efficiency, and pressure ratio of this compressor; and make the compressor operating near the rotating stall boundary enter into the normal working condition.
Issue Section:
Research Papers
References
1.
Bakken
, L. E.
, Jordal
, K.
, Syverud
E.
, and Veer
, T.
, 2004
, “Centenary of the First Gas Turbine to Given Net Power Output: A Tribute to Ægidius Elling
,” ASME
Paper No. GT2004-53211.10.1115/GT2004-532112.
Kleinschmidt
, R. V.
, 1947
, “Value of Wet Compression in Gas-Turbine Cycles
,” Mech. Eng. (Am. Soc. Mech. Eng.)
, 69
(2
), pp. 115
–116
.3.
Bhargava
, R.
, Bianchi
, M.
, Melinno
, F.
, and Peretto
, A.
, 2003
, “Parametric Analysis of Combined Cycles Equipped With Inlet Fogging
,” ASME
Paper No. GT2003-38187.10.1115/GT2003-381874.
Zheng
, Q.
, Sun
, Y.
, Li
, S.
, and Wang
, Y.
, 2003
, “Thermodynamic Analyses of Wet Compression Process in the Compressor of Gas Turbine
,” ASME J. Turbomach.
, 125
, pp. 160
–165
.10.1115/1.15752545.
Bhargava
, R. K.
, Meher-Homji
, C. B.
, and Chaker
, M. A.
, 2003
, “Gas Turbine Fogging Technology: A State of the Art Review, Part II: Overspray Fogging Analytical and Experimental Aspects
”, ASME J. Eng. Gas Turbines Power
, 129
, pp. 454
–461
.10.1115/1.23640046.
Bagnoli
, M.
, Bianchi
, M.
, Melino
, F.
, Peretto
, A.
, Spina
, P. R.
, Bhargava
, R.
, and Ingistov
, S.
, 2004
, “A Parametric Study of Interstage Injection on GE Frame 7EA Gas Turbine
,” ASME
Paper No. GT2004-53042.10.1115/GT2004-530427.
Sexton
, W. R.
, and Sexton
, M. R.
, 2003
, “The Effects of Wet Compression on Gas Turbine Engine Operating Performance
,” ASME
Paper No. GT2003-38045.10.1115/GT2003-380458.
Sun
, L.
, Zheng
, Q.
, Luo
, M.
, Li
, Y.
, and Bhargava
, R. K.
, 2010
, “Understanding Behavior of Water Droplet in a Transonic Compressor Rotor With Wet Compression
,” ASME
Paper No. GT2010-23141.10.1115/GT2010-231419.
Bhargava
, R.
, and Meher-Homji
, C. B.
, 2002
, “Parametric Analysis of Existing Gas Turbines With Inlet Evaporative and Overspray Fogging
,” ASME
Paper No. GT2002-30560.10.1115/GT2002-3056010.
Chaker
, M. A.
, Meher-Homji
, C. B.
, and Mee
, T. R.
III, 2004
, “Inlet Fogging of Gas Turbine Engines—Part A: Fog Droplet Thermodynamics, Heat Transfer and Practical Considerations
,” ASME J. Eng. Gas Turbines Power
, 126
, pp. 545
–558
.10.1115/1.171298111.
Bhargava
, R. K.
, Meher-Homji
, C. B.
, Chaker
, M. A.
, Peretto
, A.
, Bianchi
, M.
, Melino
, F.
, and Ingistov
, S.
, 2007
, “Gas Turbine Fogging Technology: A State-of-the-Art Review—Part I: Inlet Evaporative Fogging—Analytical and Experimental Aspects
,” ASME J. Eng. Gas Turbines Power
, 129
, pp. 443
–453
.10.1115/1.236400312.
White
, A. J.
, and Meacock
, A. J.
, 2003
, “An Evaluation of the Effects of Water Injection on Compressor Performance
,” ASME
Paper No. GT2003-38237.10.1115/GT2003-3823713.
Bianchi
, M.
, Melino
, F.
, Peretto
, A.
, Spina
, P. R.
, Bhargava
, R.
, and Ingistov
, S.
, 2004
, “A Parametric Study of Interstage Injection on GE Frame 7 EA Gas Turbine
,” ASME
Paper No. GT2004-53042.10.1115/GT2004-5304214.
Hill
, P. G.
, 1963
, “Aerodynamic and Thermodynamic Effects of Coolant Injection on Axial Compressors
,” Aeronaut. Q.
, 2
, pp. 333
–348
.15.
Zheng
, Q.
, Sun
, Y.
, Li
, S.
, and Wang
, Y.
, 2002
, “Thermodynamic Analyses on Wet Compression Process in the Compressor of Gas Turbine
,” ASME
Paper No. GT2002-30590.10.1115/GT2002-3059016.
Wang
, T.
, and Khan
, J. R.
, 2008
, “Overspray and Interstage Fog Cooling in Compressor Using Stage Stacking Scheme—Part 1: Development of Theory and Algorithm
,” ASME
Paper No. GT2008-50322.10.1115/GT2008-5032217.
Zheng
, Q.
, Shao
, Y.
, and Zhang
, Y.
, 2006
, “Numerical Simulation of Aerodynamic Performances of Wet Compression Compressor Cascade
,” ASME
Paper No. GT2006-91125.10.1115/GT2006-9112518.
Sun
, L.
, Zheng
, Q.
, Luo
, M.
, Li
, Y.
, and Bhargava
R.
, 2011
, “On the Behavior of Water Droplets When Moving Onto Blade Surface in a Wet Compression Transonic Compressor
,” ASME J. Eng. Gas Turbines Power
, 133
, p. 082001
.10.1115/1.400282219.
Sun
, L.
, Zheng
, Q.
, Li
, Y.
, Luo
, M.
, Wang
, J.
, and Bhargava
, R.
, 2012
, “Numerical Through Flow Simulation of a Gas Turbine Engine With Wet Compression
,” ASME
Paper No. GT2012-68846.10.1115/GT2012-6884620.
Li
, M.
, and Zheng
, Q.
, 2004
, “Wet Compression System Stability Analysis: Part I—Wet Compression Moore Greitzer Transient Model
,” ASME
Paper No. GT2004-54018.10.1115/GT2004-5401821.
Zheng
, Q.
, and Li
, M.
, 2004
, “Wet Compression System Stability Analysis: Part II—Simulations and Bifurcation Analysis
,” ASME
Paper No. GT2004-54020.10.1115/GT2004-5402022.
Luo
, M.
, Zheng
, Q.
, Sun
, L.
, Deng
, Q.
, Li
, S.
, Liu
, C.
, and Bhargava
, R. K.
, 2011
, “The Influence of Inlet Fogging for the Stable Range in a Transonic Compressor Stage
,” ASME J. Eng. Gas Turbines Power
, 134
, p. 022002
.10.1115/1.400416323.
Luo
, M.
, Zheng
, Q.
, Sun
, L.
, Deng
, Q.
, Chen
, J.
, Wang
, J.
, and Bhargava
, R. K.
, 2012
, “The Effects of Wet Compression and Blade Tip Water Injection on the Stability of a Transonic Compressor Rotor
,” ASME J. Eng. Gas Turbines Power
, 134
, p. 092001
.10.1115/1.4006991Copyright © 2014 by ASME
You do not currently have access to this content.
