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Proceedings Papers

Proceedings Volume Cover
ASME Turbo Expo 2016: Turbomachinery Technical Conference and Exposition
June 13–17, 2016
Seoul, South Korea
Conference Sponsors:
  • International Gas Turbine Institute
ISBN:
978-0-7918-4980-4
Volume 5C: Heat Transfer

Numerical Film Cooling

Numerical Simulations on the Leading Edge Film Cooling With Counter-Inclined Film-Hole Row
Dan Zhao, Cun-liang Liu, Hui-ren Zhu, Ying-ni Zhai
GT 2016; V05CT12A001doi:https://doi.org/10.1115/GT2016-56091
View Articletitled, Numerical Simulations on the Leading Edge Film Cooling With Counter-Inclined Film-Hole Row
PDF
Topics: Computer simulation , Film cooling , Heat transfer coefficients , Manufacturing , Turbines
Effects of Film Hole Exit Radiusing on Film Cooling Performance
Antar M. M. Abdala, Fifi N. M. Elwekeel, Qun Zheng
GT 2016; V05CT12A002doi:https://doi.org/10.1115/GT2016-56185
View Articletitled, Effects of Film Hole Exit Radiusing on Film Cooling Performance
PDF
Topics: Film cooling , Flow (Dynamics) , Discharge coefficient , Heat flux , Heat transfer coefficients , Coolants , Heat transfer , Pressure
Uncertainty Analysis and Data-Driven Model Advances for a Jet-in-Crossflow
Julia Ling, Anthony Ruiz, Guilhem Lacaze, Joseph Oefelein
GT 2016; V05CT12A003doi:https://doi.org/10.1115/GT2016-56191
View Articletitled, Uncertainty Analysis and Data-Driven Model Advances for a Jet-in-Crossflow
PDF
Topics: Anisotropy , Calibration , Combustion chambers , Eddies (Fluid dynamics) , Errors , Film cooling , Flow (Dynamics) , Jets , Large eddy simulation , Machine learning
Automated Design Space Exploration of Advanced-Shaped Film Cooling Holes Using the SHERPA Algorithm
Karsten Kusterer, Jens Dickhoff, Noël T. Campana, Takao Sugimoto, Ryozo Tanaka, Masahide Kazari, Dieter Bohn
GT 2016; V05CT12A004doi:https://doi.org/10.1115/GT2016-56194
View Articletitled, Automated Design Space Exploration of Advanced-Shaped Film Cooling Holes Using the SHERPA Algorithm
PDF
Topics: Algorithms , Design , Film cooling , Cooling , Shapes , Cross-flow , Gas turbines , Geometry , Robustness , Vortices
Effects of Oscillations in the Main Flow due to Thermo Acoustic Fields in a Gas Turbine Combustor on Film Cooling
Seung Il Baek, Savas Yavuzkurt
GT 2016; V05CT12A005doi:https://doi.org/10.1115/GT2016-56402
View Articletitled, Effects of Oscillations in the Main Flow due to Thermo Acoustic Fields in a Gas Turbine Combustor on Film Cooling
PDF
Topics: Acoustics , Combustion chambers , Film cooling , Flow (Dynamics) , Gas turbines , Oscillations , Engineering simulation , Jets , Simulation , Waves
Large Eddy Simulation of Inclined Jet in Cross Flow With Cylindrical and Fan-Shaped Holes
Lingxu Zhong, Chao Zhou, Shiyi Chen
GT 2016; V05CT12A006doi:https://doi.org/10.1115/GT2016-56840
View Articletitled, Large Eddy Simulation of Inclined Jet in Cross Flow With Cylindrical and Fan-Shaped Holes
PDF
Topics: Cross-flow , Large eddy simulation , Flow (Dynamics) , Vortices , Cooling , Film cooling , Temperature distribution , Coolants
Investigation of Steady and Unsteady Film-Cooling Using Immersed Mesh Blocks With New Conservative Interface Scheme
Y. Jiang, L. He, L. Capone, E. Romero
GT 2016; V05CT12A007doi:https://doi.org/10.1115/GT2016-57363
View Articletitled, Investigation of Steady and Unsteady Film-Cooling Using Immersed Mesh Blocks With New Conservative Interface Scheme
PDF
Topics: Film cooling , Flow (Dynamics) , Cooling , Blades , Design , High pressure (Physics) , Modeling , Physics , Resolution (Optics) , Turbines
Influence of Jet Impingement Configurations and Aerothermal Variables on Film Cooling
Xing Yang, Zhao Liu, Zhansheng Liu, Bin Wu, Zhenping Feng
GT 2016; V05CT12A008doi:https://doi.org/10.1115/GT2016-57480
View Articletitled, Influence of Jet Impingement Configurations and Aerothermal Variables on Film Cooling
PDF
Topics: Film cooling , Flow (Dynamics) , Coolants , Heating , Density , Navier-Stokes equations , Pressure , Reynolds number , Separation (Technology) , Temperature
Comparison of RANS and DES Modeling Against Measurements of Leading Edge Film Cooling on a First-Stage Vane
S. Ravelli, G. Barigozzi
GT 2016; V05CT12A009doi:https://doi.org/10.1115/GT2016-57567
View Articletitled, Comparison of RANS and DES Modeling Against Measurements of Leading Edge Film Cooling on a First-Stage Vane
PDF
Topics: Film cooling , Modeling , Reynolds-averaged Navier–Stokes equations , Turbulence , Cascades (Fluid dynamics) , Computational fluid dynamics , Coolants , Cooling , Eddies (Fluid dynamics) , Errors
Film Cooling Performance Improvement With Optimized Hole Arrangement on Pressure Side Surface of Nozzle Guide Vane: Part I — Optimization and Numerical Investigation
Sanga Lee, Dong-Ho Rhee, Bong Jun Cha, Kwanjung Yee
GT 2016; V05CT12A010doi:https://doi.org/10.1115/GT2016-57975
View Articletitled, Film Cooling Performance Improvement With Optimized Hole Arrangement on Pressure Side Surface of Nozzle Guide Vane: Part I — Optimization and Numerical Investigation
PDF
Topics: Film cooling , Nozzle guide vanes , Optimization , Pressure , Shapes , Nozzles , Turbines , Cooling , Design , Genetic algorithms
Film Cooling Performance Improvement With Optimized Hole Arrangements on Pressure Side Surface of Nozzle Guide Vane: Part II — Experimental Validation
Dong-Ho Rhee, Young Seok Kang, Bong Jun Cha, Jeong-Seek Kang, Sanga Lee, Kwanjung Yee
GT 2016; V05CT12A011doi:https://doi.org/10.1115/GT2016-57978
View Articletitled, Film Cooling Performance Improvement With Optimized Hole Arrangements on Pressure Side Surface of Nozzle Guide Vane: Part II — Experimental Validation
PDF
Topics: Film cooling , Nozzle guide vanes , Pressure , Flow (Dynamics) , Coolants , Cascades (Fluid dynamics) , Computational fluid dynamics , Cooling , Optimization , Turbines
An Innovative Approach to Model Temperature Influence on Particle Deposition in Gas Turbines
Giuliano Agati, Domenico Borello, Franco Rispoli, Paolo Venturini
GT 2016; V05CT12A012doi:https://doi.org/10.1115/GT2016-57997
View Articletitled, An Innovative Approach to Model Temperature Influence on Particle Deposition in Gas Turbines
PDF
Topics: Gas turbines , Particulate matter , Temperature , Mechanical properties , Viscosity , Blades , Computation , Film cooling , High temperature , Jets

Structures (With Structures and Dynamics)

Novel Designs of Turbine Blades for Additive Manufacturing
Liubov Magerramova, Boris Vasilyev, Vladimir Kinzburskiy
GT 2016; V05CT18A001doi:https://doi.org/10.1115/GT2016-56084
View Articletitled, Novel Designs of Turbine Blades for Additive Manufacturing
PDF
Topics: Additive manufacturing , Turbine blades , Blades , Design , Geometry , Turbines , Cooling systems , Engines , High pressure (Physics) , Manufacturing
Development of Temperature Estimation Method for a Gas Turbine Transition Piece
Mitsutoshi Okada, Toshihiko Takahashi, Susumu Yamada, Takayuki Ozeki, Tomoharu Fujii
GT 2016; V05CT18A002doi:https://doi.org/10.1115/GT2016-56182
View Articletitled, Development of Temperature Estimation Method for a Gas Turbine Transition Piece
PDF
Topics: Gas turbines , Temperature , Computational fluid dynamics , Cooling , Heat transfer , Superalloys , Temperature distribution , Computer simulation , Convection , Film cooling
Thermal Mechanical Fatigue and Creep Interaction in Turbine Housing Divider Wall Design
Wei Guo, Henry Guo
GT 2016; V05CT18A003doi:https://doi.org/10.1115/GT2016-56409
View Articletitled, Thermal Mechanical Fatigue and Creep Interaction in Turbine Housing Divider Wall Design
PDF
Topics: Creep , Design , Fatigue , Turbines , Turbochargers , Engines , Failure mechanisms , Testing , Deformation , Diluents
Structural Deflection’s Impact in Turbine Stator Well Heat Transfer
Julien Pohl, Harvey Thompson, Antonio Guijarro Valencia, Gregorio López Juste, Vincenzo Fico, Gary A. Clayton
GT 2016; V05CT18A004doi:https://doi.org/10.1115/GT2016-56428
View Articletitled, Structural Deflection’s Impact in Turbine Stator Well Heat Transfer
PDF
Topics: Heat transfer , Stators , Turbines , Engines , Annulus , Computational fluid dynamics , Finite element analysis , Cavities , Cooling , Deflection
Gas Turbine Shutdown Thermal Analysis and Results Compared With Experimental Data
Vishnu Vardhan Reddy, Kathiravan Selvam, Roberto De Prosperis
GT 2016; V05CT18A005doi:https://doi.org/10.1115/GT2016-56601
View Articletitled, Gas Turbine Shutdown Thermal Analysis and Results Compared With Experimental Data
PDF
Topics: Gas turbines , Thermal analysis , Transients (Dynamics) , Flanges , Turbines , Approximation , Flow (Dynamics) , Heat , Modeling , Natural convection
Experimental Observations of Thermal Bow due to Natural Convection on a Gas Turbine Compressor Rotor Shaft Analogue
E. O. Smith, A. J. Neely, A. P. Butcher
GT 2016; V05CT18A006doi:https://doi.org/10.1115/GT2016-56800
View Articletitled, Experimental Observations of Thermal Bow due to Natural Convection on a Gas Turbine Compressor Rotor Shaft Analogue
PDF
Topics: Compressors , Gas turbines , Natural convection , Rotors , Cooling , Temperature gradient , Computational fluid dynamics , Computer simulation , Errors , Finite element analysis
The Effect of Thermochemical Non-Equilibrium on the Aerodynamics of Osculating-Cone Waverider
Zhen Liu, Liu Jun, Ding Feng, Xia Zhixun
GT 2016; V05CT18A007doi:https://doi.org/10.1115/GT2016-56929
View Articletitled, The Effect of Thermochemical Non-Equilibrium on the Aerodynamics of Osculating-Cone Waverider
PDF
Topics: Aerodynamics , Equilibrium (Physics) , Aircraft , Boundary layers , Design , Pressure , Space vehicles
Turbine Blade Life Prediction Using Fluid-Thermal-Structural Interaction Simulation
I. A. Ubulom, A. Fien, A. J. Neely, K. Shankar
GT 2016; V05CT18A008doi:https://doi.org/10.1115/GT2016-57048
View Articletitled, Turbine Blade Life Prediction Using Fluid-Thermal-Structural Interaction Simulation
PDF
Topics: Fluids , Simulation , Turbine blades , Blades , Fatigue life , Stress , Damage , Density , Fatigue , Gas turbines
Experimental and Numerical Investigation of Annular Casing Impingement Arrays for Faster Casing Response
Andrew Dann, Priyanka Dhopade, Marko Bacic, Peter Ireland, Leo Lewis
GT 2016; V05CT18A009doi:https://doi.org/10.1115/GT2016-57619
View Articletitled, Experimental and Numerical Investigation of Annular Casing Impingement Arrays for Faster Casing Response
PDF
Topics: Aircraft engines , Annulus , Blades , Compressors , Cooling , Disks , Dynamic response , Engine design , Engines , Flow (Dynamics)

Experimental Film Cooling

Experimental Investigation on the Influence of Inclination Angle on the Film Cooling Performance of Diffuser Shaped Holes
Cun-liang Liu, Hui-ren Zhu, A-sai Wu, Ying-ni Zhai
GT 2016; V05CT19A001doi:https://doi.org/10.1115/GT2016-56092
View Articletitled, Experimental Investigation on the Influence of Inclination Angle on the Film Cooling Performance of Diffuser Shaped Holes
PDF
Topics: Diffusers , Film cooling , Heat transfer coefficients , Jets , Vortices , Discharge coefficient , Heat flux , Heat transfer , Liquid crystals , Shapes
The Effect of a Meter-Diffuser Offset on Shaped Film Cooling Hole Adiabatic Effectiveness
Shane Haydt, Stephen Lynch, Scott Lewis
GT 2016; V05CT19A002doi:https://doi.org/10.1115/GT2016-56135
View Articletitled, The Effect of a Meter-Diffuser Offset on Shaped Film Cooling Hole Adiabatic Effectiveness
PDF
Topics: Diffusers , Film cooling , Coolants , Cooling , Density , Electrical discharge machining , Gas turbines , Manufacturing , Momentum , Reynolds-averaged Navier–Stokes equations
Effects of Freestream Mach Number, Reynolds Number, and Boundary Layer Thickness on Film Cooling Effectiveness of Shaped Holes
Joshua B. Anderson, Ellen K. Wilkes, John W. McClintic, David G. Bogard
GT 2016; V05CT19A003doi:https://doi.org/10.1115/GT2016-56152
View Articletitled, Effects of Freestream Mach Number, Reynolds Number, and Boundary Layer Thickness on Film Cooling Effectiveness of Shaped Holes
PDF
Topics: Boundary layers , Film cooling , Mach number , Reynolds number , Flow (Dynamics) , Cooling , Density , Design , Gas turbines , Resolution (Optics)
An Investigation of Turbine Film Cooling Effectiveness With Shaped Holes and Internal Cross-Flow With Varying Operational Parameters
Ellen Wilkes, Joshua Anderson, John McClintic, David Bogard
GT 2016; V05CT19A004doi:https://doi.org/10.1115/GT2016-56162
View Articletitled, An Investigation of Turbine Film Cooling Effectiveness With Shaped Holes and Internal Cross-Flow With Varying Operational Parameters
PDF
Topics: Cross-flow , Film cooling , Turbines , Coolants , Flow (Dynamics) , Chain , Design , Engine design , Engines , Flat plates
Film Cooling Investigation of a Slot-Based Diffusion Hole
Bai-Tao An, Jian-Jun Liu, Si-Jing Zhou, Xiao-Dong Zhang, Chao Zhang
GT 2016; V05CT19A005doi:https://doi.org/10.1115/GT2016-56175
View Articletitled, Film Cooling Investigation of a Slot-Based Diffusion Hole
PDF
Topics: Diffusion (Physics) , Film cooling , Shapes , Vortices , Computer simulation , Density , Flat plates , Flow (Dynamics) , Paints , Pressure
Adiabatic Film Cooling Effectiveness Measurements Throughout Multi-Row Film Cooling Arrays
Greg Natsui, Zachary Little, Jay Kapat, Anthony Socotch, Anquan Wang, Jason E. Dees
GT 2016; V05CT19A006doi:https://doi.org/10.1115/GT2016-56183
View Articletitled, Adiabatic Film Cooling Effectiveness Measurements Throughout Multi-Row Film Cooling Arrays
PDF
Topics: Film cooling , Boundary layers , Turbulence , Coolants , Jets , Carbon dioxide , Density , Diffusers , Momentum , Pressure
Hydrodynamic Measurements Throughout a Flat Plate Multi-Row Film Cooling Array With Inclined Holes
Greg Natsui, Michael T. Voet, Zachary Little, Erik Fernandez, Jay Kapat, Jason E. Dees
GT 2016; V05CT19A007doi:https://doi.org/10.1115/GT2016-56184
View Articletitled, Hydrodynamic Measurements Throughout a Flat Plate Multi-Row Film Cooling Array With Inclined Holes
PDF
Topics: Carbon dioxide , Coolants , Die cutting , Electromagnetic scattering , Film cooling , Flat plates , Flow (Dynamics) , Kinetic energy , Momentum , Particulate matter
Application of S-PIV for Investigation of Round and Shaped Film Cooling Holes at High Density Ratios
Travis B. Watson, Sara Nahang-Toudeshki, Lesley M. Wright, Daniel C. Crites, Mark C. Morris, Ardeshir Riahi
GT 2016; V05CT19A008doi:https://doi.org/10.1115/GT2016-56209
View Articletitled, Application of S-PIV for Investigation of Round and Shaped Film Cooling Holes at High Density Ratios
PDF
Topics: Density , Film cooling , Coolants , Flow (Dynamics) , Gas turbines , Vorticity , Compressors , Cooling , Gases , Particulate matter
Combined Effects of Freestream Pressure Gradient and Density Ratio on the Film Cooling Effectiveness of Round and Shaped Holes on a Flat Plate
Kyle R. Vinton, Travis B. Watson, Lesley M. Wright, Daniel C. Crites, Mark C. Morris, Ardeshir Riahi
GT 2016; V05CT19A009doi:https://doi.org/10.1115/GT2016-56210
View Articletitled, Combined Effects of Freestream Pressure Gradient and Density Ratio on the Film Cooling Effectiveness of Round and Shaped Holes on a Flat Plate
PDF
Topics: Density , Film cooling , Flat plates , Pressure gradient , Coolants , Flow (Dynamics) , Pressure , Wind tunnels
Heat Transfer Coefficients and Film Cooling Effectiveness of Transonic Turbine Vane Suction Surface Using TSP Technique
Chao-Cheng Shiau, Nafiz H. K. Chowdhury, Shang-Feng Yang, Je-Chin Han, Alexander MirzaMoghadam, Ardeshir Riahi
GT 2016; V05CT19A010doi:https://doi.org/10.1115/GT2016-56264
View Articletitled, Heat Transfer Coefficients and Film Cooling Effectiveness of Transonic Turbine Vane Suction Surface Using TSP Technique
PDF
Topics: Film cooling , Heat transfer coefficients , Suction , Turbines , Coolants , Heat transfer , Mach number , Cascades (Fluid dynamics) , Compressed air , Density
Turbine Vane Endwall Film Cooling With Slashface Leakage and Discrete Hole Configuration
Nafiz H. K. Chowdhury, Chao-Cheng Shiau, Je-Chin Han, Luzeng Zhang, Hee-Koo Moon
GT 2016; V05CT19A011doi:https://doi.org/10.1115/GT2016-56318
View Articletitled, Turbine Vane Endwall Film Cooling With Slashface Leakage and Discrete Hole Configuration
PDF
Topics: Film cooling , Leakage , Turbines , Flow (Dynamics) , Coolants , Cooling , Leakage flows , Turbulence , Airfoils , Cascades (Fluid dynamics)
Turbine Blade Platform Film Cooling With Simulated Swirl Purge Flow and Slashface Leakage Conditions
Andrew F. Chen, Chao-Cheng Shiau, Je-Chin Han
GT 2016; V05CT19A012doi:https://doi.org/10.1115/GT2016-56321
View Articletitled, Turbine Blade Platform Film Cooling With Simulated Swirl Purge Flow and Slashface Leakage Conditions
PDF
Topics: Film cooling , Flow (Dynamics) , Leakage , Turbine blades , Leakage flows , Blades , Coolants , Pressure , Cascades (Fluid dynamics) , Chords (Trusses)
Contoured Endwall Flow and Heat Transfer Experiments With Combustor Coolant and Gap Leakage Flows for a Turbine Nozzle Guide Vane
Reema Saxena, Mahmood H. Alqefl, Zhao Liu, Hee-Koo Moon, Luzeng Zhang, Terrence W. Simon
GT 2016; V05CT19A013doi:https://doi.org/10.1115/GT2016-56675
View Articletitled, Contoured Endwall Flow and Heat Transfer Experiments With Combustor Coolant and Gap Leakage Flows for a Turbine Nozzle Guide Vane
PDF
Topics: Combustion chambers , Coolants , Flow (Dynamics) , Heat transfer , Leakage flows , Nozzle guide vanes , Turbines , Leakage , Film cooling , Gas turbines
Dependence of Film Cooling Effectiveness on 3D Printed Cooling Holes
Paul Aghasi, Ephraim Gutmark, David Munday
GT 2016; V05CT19A014doi:https://doi.org/10.1115/GT2016-56698
View Articletitled, Dependence of Film Cooling Effectiveness on 3D Printed Cooling Holes
PDF
Topics: Additive manufacturing , Cooling , Film cooling , Diffusers , Geometry , Surface roughness , Aluminum , Carbon dioxide , Coolants , Density
Experimental Investigation of Film Cooling Effectiveness of a Highly Loaded Turbine Blade Under Steady and Periodic Unsteady Flow Conditions
Ali Nikparto, Meinhard T. Schobeiri
GT 2016; V05CT19A015doi:https://doi.org/10.1115/GT2016-56701
View Articletitled, Experimental Investigation of Film Cooling Effectiveness of a Highly Loaded Turbine Blade Under Steady and Periodic Unsteady Flow Conditions
PDF
Topics: Film cooling , Turbine blades , Unsteady flow , Blades , Wakes , Flow (Dynamics) , Pressure , Cascades (Fluid dynamics) , Cavities , Coolants
An Experimental Investigation of Full-Coverage Film Cooling Effectiveness and Heat Transfer Coefficient of a Turbine Guide Vane in a Linear Transonic Cascade
Zhong-yi Fu, Hui-ren Zhu, Cun-liang Liu, Cong Liu, Zheng Li
GT 2016; V05CT19A016doi:https://doi.org/10.1115/GT2016-56839
View Articletitled, An Experimental Investigation of Full-Coverage Film Cooling Effectiveness and Heat Transfer Coefficient of a Turbine Guide Vane in a Linear Transonic Cascade
PDF
Topics: Cascades (Fluid dynamics) , Film cooling , Guide vanes , Heat transfer coefficients , Turbines , Flow (Dynamics) , Reynolds number , Pressure , Suction , Mach number
Experimental Study on the Film Cooling Characteristics of the Cylindrical Holes Embedded in Sine-Wave Shaped Trench
Jian-sheng Wei, Hui-ren Zhu, Cun-liang Liu, Hui Song, Cong Liu, Tong Meng
GT 2016; V05CT19A017doi:https://doi.org/10.1115/GT2016-56856
View Articletitled, Experimental Study on the Film Cooling Characteristics of the Cylindrical Holes Embedded in Sine-Wave Shaped Trench
PDF
Topics: Film cooling , Waves , Shapes , Discharge coefficient , Flow (Dynamics) , Cooling , Engineering simulation , Reynolds-averaged Navier–Stokes equations , Simulation , Transients (Dynamics)
Accuracy of Superposition Predictions of Film Cooling Effectiveness on a Flat Plate With Double Rows of Holes
Tong Meng, Hui-ren Zhu, Cun-liang Liu, Qiang Yu, Jian-sheng Wei
GT 2016; V05CT19A018doi:https://doi.org/10.1115/GT2016-56865
View Articletitled, Accuracy of Superposition Predictions of Film Cooling Effectiveness on a Flat Plate With Double Rows of Holes
PDF
Topics: Film cooling , Flat plates , Plates (structures) , Shapes , Computer simulation , Computer software , Coolants , Cooling , Cylinders , Engine design
Combined Influence of Surface Deposition and Hole-Blockage on Film-Cooling Performances
Xue-yi Wang, Jian Pu, Rui-ming Yuan, Jian-hua Wang
GT 2016; V05CT19A019doi:https://doi.org/10.1115/GT2016-56902
View Articletitled, Combined Influence of Surface Deposition and Hole-Blockage on Film-Cooling Performances
PDF
Topics: Film cooling , Cooling , Dust , Aircraft engines , Damage , Fluorescence , Lasers , Particulate matter , Water tunnels
Thermal Field Measurements for a Shaped Hole at Low and High Freestream Turbulence Intensity
Robert P. Schroeder, Karen A. Thole
GT 2016; V05CT19A020doi:https://doi.org/10.1115/GT2016-56967
View Articletitled, Thermal Field Measurements for a Shaped Hole at Low and High Freestream Turbulence Intensity
PDF
Topics: Turbulence , Coolants , Airfoils , Cooling , Eddies (Fluid dynamics) , Gas turbines , Jets , Shear stress , Vortices
Effect of In-Hole Roughness on Film Cooling From a Shaped Hole
Robert P. Schroeder, Karen A. Thole
GT 2016; V05CT19A021doi:https://doi.org/10.1115/GT2016-56978
View Articletitled, Effect of In-Hole Roughness on Film Cooling From a Shaped Hole
PDF
Topics: Film cooling , Surface roughness , Turbulence , Coolants , Cooling , Flow (Dynamics) , Gas turbines , Geometry , Interior walls
Combustor-Turbine Aerothermal Interaction in an Axial Turbine: Influence of Varied Inflow Conditions on Endwall Heat Transfer and Film Cooling Effectiveness
Holger Werschnik, Jonathan Hilgert, Martin Bruschewski, Heinz-Peter Schiffer
GT 2016; V05CT19A022doi:https://doi.org/10.1115/GT2016-57171
View Articletitled, Combustor-Turbine Aerothermal Interaction in an Axial Turbine: Influence of Varied Inflow Conditions on Endwall Heat Transfer and Film Cooling Effectiveness
PDF
Topics: Combustion chambers , Film cooling , Heat transfer , Inflow , Turbines , Coolants , Swirling flow , Computer simulation , Cooling , Flow (Dynamics)
Study of Film Cooling in the Trailing Edge Region of a Turbine Rotor Blade in High Speed Flow Using Pressure Sensitive Paint
Niharika Gurram, Peter T. Ireland, Tsun Holt Wong, Kevin P. Self
GT 2016; V05CT19A023doi:https://doi.org/10.1115/GT2016-57356
View Articletitled, Study of Film Cooling in the Trailing Edge Region of a Turbine Rotor Blade in High Speed Flow Using Pressure Sensitive Paint
PDF
Topics: Blades , Film cooling , Flow (Dynamics) , Paints , Pressure , Rotors , Turbines , Coolants , Engines , Aluminum
Film Cooling Effectiveness Measurements on Trailing Edge Cutback Surface and Lands Following Novel Cross Corrugated Slot Geometry
T. H. Wong, P. T. Ireland, K. P. Self
GT 2016; V05CT19A024doi:https://doi.org/10.1115/GT2016-57371
View Articletitled, Film Cooling Effectiveness Measurements on Trailing Edge Cutback Surface and Lands Following Novel Cross Corrugated Slot Geometry
PDF
Topics: Film cooling , Geometry , Cooling , Design , Pressure , Blades , Coolants , Engineers , Flow (Dynamics) , High pressure (Physics)
Application of Film Cooling to an Unshrouded HP Turbine Casing
Matthew Collins, Kamaljit Chana, Thomas Povey
GT 2016; V05CT19A025doi:https://doi.org/10.1115/GT2016-57387
View Articletitled, Application of Film Cooling to an Unshrouded HP Turbine Casing
PDF
Topics: Film cooling , Turbines , Rotors , Computational fluid dynamics , Design , Testing , Acoustics , Blades , Coolants , Density
Effects of Inlet Swirl on Pressure Side Film Cooling of Neighboring Vane Surface
Yifei Li, Yang Zhang, Xin Yuan
GT 2016; V05CT19A026doi:https://doi.org/10.1115/GT2016-57527
View Articletitled, Effects of Inlet Swirl on Pressure Side Film Cooling of Neighboring Vane Surface
PDF
Topics: Film cooling , Pressure , Flow (Dynamics) , Blades , Coolants , Density , Engines , Mach number , Nitrogen , Painting
Effects of Inlet Swirl on Suction Side Phantom Cooling
Yang Zhang, Yifei Li, Xin Yuan
GT 2016; V05CT19A027doi:https://doi.org/10.1115/GT2016-57553
View Articletitled, Effects of Inlet Swirl on Suction Side Phantom Cooling
PDF
Topics: Phantom cooling , Suction , Coolants , Film cooling , Blades , Flow (Dynamics) , Airfoils , Cooling , Density , Design
Experimentally Measured Effects of Incidence Angle on the Adiabatic and Overall Effectiveness of a Fully Cooled Turbine Airfoil With Showerhead Shaped Holes
Kyle Chavez, Thomas N. Slavens, David Bogard
GT 2016; V05CT19A028doi:https://doi.org/10.1115/GT2016-57982
View Articletitled, Experimentally Measured Effects of Incidence Angle on the Adiabatic and Overall Effectiveness of a Fully Cooled Turbine Airfoil With Showerhead Shaped Holes
PDF
Topics: Airfoils , Turbines , Flow (Dynamics) , Pressure , Manufacturing , Cascades (Fluid dynamics) , Computational fluid dynamics , Construction , Convection , Cooling
Effects of Internal and Film Cooling on the Overall Effectiveness of a Fully Cooled Turbine Airfoil With Shaped Holes
Kyle Chavez, Thomas N. Slavens, David Bogard
GT 2016; V05CT19A029doi:https://doi.org/10.1115/GT2016-57992
View Articletitled, Effects of Internal and Film Cooling on the Overall Effectiveness of a Fully Cooled Turbine Airfoil With Shaped Holes
PDF
Topics: Airfoils , Film cooling , Turbines , Heat conduction , Engines , Cooling , Heat transfer coefficients , Thermal conductivity , Cavities , Convection
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