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Issues

Volume 123, Issue 2
April 2001
Issue Cover
ISSN 0889-504X
EISSN 1528-8900
In this Issue

Technical Papers

High Lift and Aft-Loaded Profiles for Low-Pressure Turbines
R. J. Howell, O. N. Ramesh, H. P. Hodson, N. W. Harvey, V. Schulte
J. Turbomach. April 2001, 123(2): 181–188. doi: https://doi.org/10.1115/1.1350409
View articletitled, High Lift and Aft-Loaded Profiles for Low-Pressure Turbines
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Topics: Blades , Boundary layers , Cascades (Fluid dynamics) , Flow (Dynamics) , Pressure , Reynolds number , Separation (Technology) , Suction , Turbines , Wakes
Measurements in Separated and Transitional Boundary Layers Under Low-Pressure Turbine Airfoil Conditions
Ralph J. Volino, Lennart S. Hultgren
J. Turbomach. April 2001, 123(2): 189–197. doi: https://doi.org/10.1115/1.1350408
View articletitled, Measurements in Separated and Transitional Boundary Layers Under Low-Pressure Turbine Airfoil Conditions
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Topics: Airfoils , Boundary layers , Bubbles , Pressure , Separation (Technology) , Turbines , Turbulence , Flow (Dynamics) , Reynolds number , Pressure gradient
Turbine Separation Control Using Pulsed Vortex Generator Jets
Jeffrey P. Bons, Rolf Sondergaard, Richard B. Rivir
J. Turbomach. April 2001, 123(2): 198–206. doi: https://doi.org/10.1115/1.1350410
View articletitled, Turbine Separation Control Using Pulsed Vortex Generator Jets
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Topics: Blades , Boundary layers , Chords (Trusses) , Cycles , Flow (Dynamics) , Jets , Separation (Technology) , Turbines , Vortices , Wakes
Reduction of Secondary Flow Losses in Turbine Cascades by Leading Edge Modifications at the Endwall
H. Sauer, R. Mu¨ller, K. Vogeler
J. Turbomach. April 2001, 123(2): 207–213. doi: https://doi.org/10.1115/1.1354142
View articletitled, Reduction of Secondary Flow Losses in Turbine Cascades by Leading Edge Modifications at the Endwall
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Topics: Boundary layers , Cascades (Fluid dynamics) , Flow (Dynamics) , Numerical analysis , Pressure , Turbines , Vortices , Suction , Wind tunnels , Blades
An Experimental Study of the Effect of Wake Passing on Turbine Blade Film Cooling
James D. Heidmann, Barbara L. Lucci, Eli Reshotko
J. Turbomach. April 2001, 123(2): 214–221. doi: https://doi.org/10.1115/1.1354621
View articletitled, An Experimental Study of the Effect of Wake Passing on Turbine Blade Film Cooling
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Topics: Blades , Film cooling , Pressure , Suction , Turbine blades , Wakes , Flow (Dynamics) , Cooling , Turbines
Film Cooling Downstream of a Row of Discrete Holes With Compound Angle
R. J. Goldstein, P. Jin
J. Turbomach. April 2001, 123(2): 222–230. doi: https://doi.org/10.1115/1.1344905
View articletitled, Film Cooling Downstream of a Row of Discrete Holes With Compound Angle
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Topics: Film cooling , Jets , Mass transfer , Flow (Dynamics) , Heat transfer coefficients , Heat transfer , Density , Vortex motion
Scaling of Performance for Varying Density Ratio Coolants on an Airfoil With Strong Curvature and Pressure Gradient Effects
Marcia I. Ethridge, J. Michael Cutbirth, David G. Bogard
J. Turbomach. April 2001, 123(2): 231–237. doi: https://doi.org/10.1115/1.1343457
View articletitled, Scaling of Performance for Varying Density Ratio Coolants on an Airfoil With Strong Curvature and Pressure Gradient Effects
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Topics: Airfoils , Coolants , Density , Film cooling , Momentum , Pressure gradient , Suction , Turbines , Turbulence , Flat plates
Aerodynamic Loss Characteristics of a Turbine Blade With Trailing Edge Coolant Ejection: Part 1—Effect of Cut-Back Length, Spanwise Rib Spacing, Free-Stream Reynolds Number, and Chordwise Rib Length on Discharge Coefficients
Oguz Uzol, Cengiz Camci, Boris Glezer
J. Turbomach. April 2001, 123(2): 238–248. doi: https://doi.org/10.1115/1.1348017
View articletitled, Aerodynamic Loss Characteristics of a Turbine Blade With Trailing Edge Coolant Ejection: Part 1—Effect of Cut-Back Length, Spanwise Rib Spacing, Free-Stream Reynolds Number, and Chordwise Rib Length on Discharge Coefficients
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Topics: Coolants , Discharge coefficient , Flow (Dynamics) , Pressure , Reynolds number
Aerodynamic Loss Characteristics of a Turbine Blade With Trailing Edge Coolant Ejection: Part 2—External Aerodynamics, Total Pressure Losses, and Predictions
Oguz Uzol, Cengiz Camci
J. Turbomach. April 2001, 123(2): 249–257. doi: https://doi.org/10.1115/1.1351817
View articletitled, Aerodynamic Loss Characteristics of a Turbine Blade With Trailing Edge Coolant Ejection: Part 2—External Aerodynamics, Total Pressure Losses, and Predictions
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Topics: Blades , Coolants , Flow (Dynamics) , Pressure , Turbine blades , Turbulence , Wakes , Aerodynamics , Simulation , Momentum
A Method for Correlating the Influence of External Crossflow on the Discharge Coefficients of Film Cooling Holes
D. A. Rowbury, M. L. G. Oldfield, G. D. Lock
J. Turbomach. April 2001, 123(2): 258–265. doi: https://doi.org/10.1115/1.1354137
View articletitled, A Method for Correlating the Influence of External Crossflow on the Discharge Coefficients of Film Cooling Holes
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Topics: Coolants , Discharge coefficient , Engines , Film cooling , Flow (Dynamics) , Mach number , Pressure , Design , Geometry , Cooling
Flow Characteristics Inside Circular Injection Holes Normally Oriented to a Crossflow: Part I — Flow Visualizations and Flow Data in the Symmetry Plane
Sang Woo Lee, Sang Won Park, Joon Sik Lee
J. Turbomach. April 2001, 123(2): 266–273. doi: https://doi.org/10.1115/1.1344876
View articletitled, Flow Characteristics Inside Circular Injection Holes Normally Oriented to a Crossflow: Part I — Flow Visualizations and Flow Data in the Symmetry Plane
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Topics: Flow (Dynamics) , Flow visualization , Bubbles , Boundary layers , Separation (Technology) , Flow measurement
Flow Characteristics Inside Circular Injection Holes Normally Oriented to a Crossflow: Part II—Three-Dimensional Flow Data and Aerodynamic Loss
Sang Woo Lee, Seong Kuk Joo, Joon Sik Lee
J. Turbomach. April 2001, 123(2): 274–280. doi: https://doi.org/10.1115/1.1348016
View articletitled, Flow Characteristics Inside Circular Injection Holes Normally Oriented to a Crossflow: Part II—Three-Dimensional Flow Data and Aerodynamic Loss
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Topics: Flow (Dynamics) , Bubbles , Separation (Technology)
Influence of Crossflow-Induced Swirl and Impingement on Heat Transfer in a Two-Pass Channel Connected by Two Rows of Holes
Gautam Pamula, Srinath V. Ekkad, Sumanta Acharya
J. Turbomach. April 2001, 123(2): 281–287. doi: https://doi.org/10.1115/1.1343467
View articletitled, Influence of Crossflow-Induced Swirl and Impingement on Heat Transfer in a Two-Pass Channel Connected by Two Rows of Holes
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Topics: Flow (Dynamics) , Heat transfer , Reynolds number , Cooling , Liquid crystals
Heat Transfer in Rotating Narrow Rectangular Ducts With Heated Sides Oriented at 60° to the r-z Plane
Fred T. Willett, Arthur E. Bergles
J. Turbomach. April 2001, 123(2): 288–295. doi: https://doi.org/10.1115/1.1354189
View articletitled, Heat Transfer in Rotating Narrow Rectangular Ducts With Heated Sides Oriented at 60° to the <span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mrow xmlns=""><mi>r</mi><mo>-</mo><mi>z</mi></mrow></math></span> Plane
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Topics: Ducts , Heat transfer , Rotation , Buoyancy
Tip Clearance Effects in a Turbine Rotor: Part I—Pressure Field and Loss
Xinwen Xiao, Graduate Assistant, Andrew A. McCarter, Graduate Assistant, Budugur Lakshminarayana, Evan Pugh Professor and Director
J. Turbomach. April 2001, 123(2): 296–304. doi: https://doi.org/10.1115/1.1368365
View articletitled, Tip Clearance Effects in a Turbine Rotor: Part I—Pressure Field and Loss
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Topics: Blades , Clearances (Engineering) , Flow (Dynamics) , Pressure , Rotors , Vortices , Suction , Turbines , Leakage
Tip Clearance Effects in a Turbine Rotor: Part II—Velocity Field and Flow Physics
Andrew A. McCarter, Graduate Assistant, Xinwen Xiao, Graduate Assistant, Budugur Lakshminarayana, Evan Pugh Professor and Director
J. Turbomach. April 2001, 123(2): 305–313. doi: https://doi.org/10.1115/1.1368880
View articletitled, Tip Clearance Effects in a Turbine Rotor: Part II—Velocity Field and Flow Physics
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Topics: Blades , Chords (Trusses) , Flow (Dynamics) , Leakage , Leakage flows , Rotors , Vortices , Clearances (Engineering) , Turbulence , Suction
Numerical Simulation of Tip Leakage Flows in Axial Flow Turbines, With Emphasis on Flow Physics: Part I—Effect of Tip Clearance Height
J. Tallman, Graduate Research Assistant, B. Lakshminarayana, Evan Pugh Professor and Director
J. Turbomach. April 2001, 123(2): 314–323. doi: https://doi.org/10.1115/1.1368881
View articletitled, Numerical Simulation of Tip Leakage Flows in Axial Flow Turbines, With Emphasis on Flow Physics: Part I—Effect of Tip Clearance Height
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Topics: Blades , Clearances (Engineering) , Flow (Dynamics) , Leakage , Leakage flows , Vortices , Pressure , Fluids , Turbines
Numerical Simulation of Tip Leakage Flows in Axial Flow Turbines, With Emphasis on Flow Physics: Part II—Effect of Outer Casing Relative Motion
J. Tallman, Graduate Research Assistant, B. Lakshminarayana, Evan Pugh Professor and Director
J. Turbomach. April 2001, 123(2): 324–333. doi: https://doi.org/10.1115/1.1369113
View articletitled, Numerical Simulation of Tip Leakage Flows in Axial Flow Turbines, With Emphasis on Flow Physics: Part II—Effect of Outer Casing Relative Motion
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Topics: Blades , Flow (Dynamics) , Leakage , Leakage flows , Pressure , Vortices , Turbines , Fluids
The Control of Shroud Leakage Flows to Reduce Aerodynamic Losses in a Low Aspect Ratio, Shrouded Axial Flow Turbine
A. M. Wallis, J. D. Denton, A. A. J. Demargne
J. Turbomach. April 2001, 123(2): 334–341. doi: https://doi.org/10.1115/1.1354143
View articletitled, The Control of Shroud Leakage Flows to Reduce Aerodynamic Losses in a Low Aspect Ratio, Shrouded Axial Flow Turbine
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Topics: Blades , Cavities , Flow (Dynamics) , Fluids , Leakage , Leakage flows , Rotors , Turbines , Turning , Sealing (Process)
Flow Interaction From the Exit Cavity of an Axial Turbine Blade Row Labyrinth Seal
A. Pfau, M. Treiber, M. Sell, G. Gyarmathy
J. Turbomach. April 2001, 123(2): 342–352. doi: https://doi.org/10.1115/1.1368124
View articletitled, Flow Interaction From the Exit Cavity of an Axial Turbine Blade Row Labyrinth Seal
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Topics: Cavities , Flow (Dynamics) , Pressure , Blades , Fluids
Experimental and Theoretical Comparison of Two Swirl Brake Designs
K. K. Nielsen, D. W. Childs, C. M. Myllerup
J. Turbomach. April 2001, 123(2): 353–358. doi: https://doi.org/10.1115/1.1354140
View articletitled, Experimental and Theoretical Comparison of Two Swirl Brake Designs
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Topics: Brakes , Flow (Dynamics) , Rotors , Design
Mixed Flow Turbines: Inlet and Exit Flow Under Steady and Pulsating Conditions
N. Karamanis, R. F. Martinez-Botas, C. C. Su
J. Turbomach. April 2001, 123(2): 359–371. doi: https://doi.org/10.1115/1.1354141
View articletitled, Mixed Flow Turbines: Inlet and Exit Flow Under Steady and Pulsating Conditions
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Topics: Flow (Dynamics) , Rotors , Turbines , Blades , Design
Some Aspects of Modeling Compressor Behavior in Gas Turbine Performance Calculations
Claus Riegler, Michael Bauer, Joachim Kurzke
J. Turbomach. April 2001, 123(2): 372–378. doi: https://doi.org/10.1115/1.1368123
View articletitled, Some Aspects of Modeling Compressor Behavior in Gas Turbine Performance Calculations
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Topics: Compressors , Pressure , Flow (Dynamics) , Geometry , Gas turbines , Algorithms
Steady Performance Measurements of a Turbofan Engine With Inlet Distortions Containing Co- and Counterrotating Swirl From an Intake Diffuser for Hypersonic Flight
Norbert R. Schmid, Dirk C. Leinhos, Leonhard Fottner
J. Turbomach. April 2001, 123(2): 379–385. doi: https://doi.org/10.1115/1.1343466
View articletitled, Steady Performance Measurements of a Turbofan Engine With Inlet Distortions Containing Co- and Counterrotating Swirl From an Intake Diffuser for Hypersonic Flight
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Topics: Engines , Flow (Dynamics) , Pressure , Turbofans , Compressors , Thrust , Flight , Ducts
Implementation of a Compressor Face Boundary Condition Based on Small Disturbances
John W. Slater, Gerald C. Paynter
J. Turbomach. April 2001, 123(2): 386–391. doi: https://doi.org/10.1115/1.1344884
View articletitled, Implementation of a Compressor Face Boundary Condition Based on Small Disturbances
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Topics: Acoustics , Boundary-value problems , Compressors , Pressure , Blades , Flow (Dynamics)
Natural Transition Phenomena on an Axial Compressor Blade
J. D. Hughes, G. J. Walker
J. Turbomach. April 2001, 123(2): 392–401. doi: https://doi.org/10.1115/1.1351816
View articletitled, Natural Transition Phenomena on an Axial Compressor Blade
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Topics: Blades , Compressors , Flow (Dynamics) , Stators , Turbulence , Waves , Wakes
Numerical Investigation of Nonlinear Fluid-Structure Interaction in Vibrating Compressor Blades
Volker Carstens, Joachim Belz
J. Turbomach. April 2001, 123(2): 402–408. doi: https://doi.org/10.1115/1.1354138
View articletitled, Numerical Investigation of Nonlinear Fluid-Structure Interaction in Vibrating Compressor Blades
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Topics: Blades , Compressors , Flutter (Aerodynamics) , Vibration , Cascades (Fluid dynamics) , Computation , Transonic flow , Flow (Dynamics) , Subsonic flow , Aerodynamics
The Impact of Viscous Effects on the Aerodynamic Damping of Vibrating Transonic Compressor Blades—A Numerical Study
Bjo¨rn Gru¨ber, Volker Carstens
J. Turbomach. April 2001, 123(2): 409–417. doi: https://doi.org/10.1115/1.1354139
View articletitled, The Impact of Viscous Effects on the Aerodynamic Damping of Vibrating Transonic Compressor Blades—A Numerical Study
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Topics: Blades , Compressors , Damping , Flow (Dynamics) , Oscillations , Shock (Mechanics) , Vibration , Pressure , Viscosity , Turbulence
An Investigation of Surge in a High-Speed Centrifugal Compressor Using Digital PIV
Mark P. Wernet, Michelle M. Bright, Gary J. Skoch
J. Turbomach. April 2001, 123(2): 418–428. doi: https://doi.org/10.1115/1.1343465
View articletitled, An Investigation of Surge in a High-Speed Centrifugal Compressor Using Digital PIV
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Topics: Compressors , Diffusers , Flow (Dynamics) , Impellers , Pressure , Surges
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2024 Associate Editors
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