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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:
978-0-7918-4976-7
In This Volume
Volume 4B: Combustion, Fuels and Emissions

Combustion, Fuels and Emissions

A LES-LEM Study of Preferential Diffusion Processes in a Partially Premixed Swirling Combustor With Synthesis Gases
Shaoshuai Li, Yunzhe Zheng, Daniel Mira Martinez, Suhui Li, Min Zhu, Xi Jiang
GT 2016; V04BT04A001https://doi.org/10.1115/GT2016-57146
View Articletitled, A LES-LEM Study of Preferential Diffusion Processes in a Partially Premixed Swirling Combustor With Synthesis Gases
PDF
Topics: Combustion chambers , Diffusion processes , Swirling flow , Syngas , Combustion , Scalars , Chemical reactions , Design , Diffusion (Physics) , Dynamics (Mechanics)
Influence of Combustor Geometry on Swirl Stabilized Premixed Methane-Air Flame
Yiheng Tong, Mao Li, Jens Klingmann
GT 2016; V04BT04A002https://doi.org/10.1115/GT2016-57165
View Articletitled, Influence of Combustor Geometry on Swirl Stabilized Premixed Methane-Air Flame
PDF
Topics: Combustion chambers , Flames , Geometry , Methane , Emissions , Flow (Dynamics) , Chemiluminescence , Combustion , Complementary metal oxide semiconductors , Exhaust systems
Numerical Analysis of the Dynamic Flame Response and Thermo-Acoustic Stability of a Full-Annular Lean Partially-Premixed Combustor
Alessandro Innocenti, Antonio Andreini, Bruno Facchini, Matteo Cerutti
GT 2016; V04BT04A003https://doi.org/10.1115/GT2016-57182
View Articletitled, Numerical Analysis of the Dynamic Flame Response and Thermo-Acoustic Stability of a Full-Annular Lean Partially-Premixed Combustor
PDF
Topics: Acoustics , Combustion chambers , Flames , Numerical analysis , Stability , Design , Dynamic response , Gas turbines , Boundary-value problems , Combustion
Chemical Kinetic Models for Enhancing Gas Turbine Flexibility: Model Validation and Application
Felix Güthe, Martin Gassner, Stefano Bernero, Thiemo Meeuwissen, Torsten Wind
GT 2016; V04BT04A004https://doi.org/10.1115/GT2016-57223
View Articletitled, Chemical Kinetic Models for Enhancing Gas Turbine Flexibility: Model Validation and Application
PDF
Topics: Gas turbines , Model validation , Fuels , Stress , Emissions , Engines , Modeling , Chemical kinetics , Co-firing , Combustion
Laser-Based Investigation on a Dry Low Emission Industrial Prototype Burner at Atmospheric Pressure Conditions
Arman Ahamed Subash, Robert Collin, Marcus Aldén, Atanu Kundu, Jens Klingmann
GT 2016; V04BT04A005https://doi.org/10.1115/GT2016-57242
View Articletitled, Laser-Based Investigation on a Dry Low Emission Industrial Prototype Burner at Atmospheric Pressure Conditions
PDF
Topics: Atmospheric pressure , Emissions , Engineering prototypes , Lasers , Flames , Combustion , Fuels , Air flow , Chemiluminescence , Combustion chambers
Modelling of Gas Turbine NOx Emissions Based on Long-Term Operation Data
Christian Rudolf, Manfred Wirsum, Martin Gassner, Benjamin Timo Zoller, Stefano Bernero
GT 2016; V04BT04A006https://doi.org/10.1115/GT2016-57252
View Articletitled, Modelling of Gas Turbine NOx Emissions Based on Long-Term Operation Data
PDF
Topics: Emissions , Gas turbines , Modeling , Nitrogen oxides , Engines , Combined cycle power stations , Design , Engine design , Optimization , Power stations
Determination of Laminar Flame Speed and Markstein Numbers Deduced From Turbulent Flames Using the Bomb Method
Tobias Baust, Peter Habisreuther, Nikolaos Zarzalis
GT 2016; V04BT04A007https://doi.org/10.1115/GT2016-57305
View Articletitled, Determination of Laminar Flame Speed and Markstein Numbers Deduced From Turbulent Flames Using the Bomb Method
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Topics: Bombs , Flames , Turbulence , Combustion , Lasers , Pressure , Deformation , Diffusion processes , Engines , High pressure (Physics)
Investigation of the Combustion Performance in a Three-Nozzle RQL Combustor
Bing Ge, Yongbin Ji, Shusheng Zang, Yongwen Yuan, Jianhua Xin
GT 2016; V04BT04A008https://doi.org/10.1115/GT2016-57308
View Articletitled, Investigation of the Combustion Performance in a Three-Nozzle RQL Combustor
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Topics: Combustion , Combustion chambers , Nozzles , Emissions , Nitrogen oxides , Air flow , Exhaust systems , Flames , Temperature , Energy generation
Modeling Flame Describing Functions Based on Hydrodynamic Linear Stability Analysis
Kilian Oberleithner, Christian Oliver Paschereit
GT 2016; V04BT04A009https://doi.org/10.1115/GT2016-57316
View Articletitled, Modeling Flame Describing Functions Based on Hydrodynamic Linear Stability Analysis
PDF
Topics: Flames , Modeling , Stability , Combustion chambers , Flow (Dynamics) , Fluctuations (Physics) , Hydrodynamic stability , Acoustics , Combustion , Gas turbines
Role of Shear Layer Instability in Driving Pressure Oscillations in a Backward Facing Step Combustor
Srinivas K. Kirthy, Santosh Hemchandra, Seunghyuck Hong, Santosh Shanbhogue, Ahmed F. Ghoniem
GT 2016; V04BT04A010https://doi.org/10.1115/GT2016-57322
View Articletitled, Role of Shear Layer Instability in Driving Pressure Oscillations in a Backward Facing Step Combustor
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Topics: Combustion chambers , Oscillations , Pressure , Shear (Mechanics) , Flow (Dynamics) , Combustion , Acoustics , Density , Hydrodynamic stability , Sound pressure
Flame Stabilization and Emission Characteristics of a Prototype Gas Turbine Burner at Atmospheric Conditions
Atanu Kundu, Jens Klingmann, Arman Ahamed Subash, Robert Collin
GT 2016; V04BT04A011https://doi.org/10.1115/GT2016-57336
View Articletitled, Flame Stabilization and Emission Characteristics of a Prototype Gas Turbine Burner at Atmospheric Conditions
PDF
Topics: Emissions , Engineering prototypes , Flames , Gas turbines , Fuels , Nitrogen oxides , Chemiluminescence , Temperature , Combustion , Combustion chambers
Pilot-Pilot Interaction Effects on a Prototype DLE Gas Turbine Burner Combustion
Atanu Kundu, Jens Klingmann, Arman Ahamed Subash, Robert Collin
GT 2016; V04BT04A012https://doi.org/10.1115/GT2016-57338
View Articletitled, Pilot-Pilot Interaction Effects on a Prototype DLE Gas Turbine Burner Combustion
PDF
Topics: Combustion , Engineering prototypes , Gas turbines , Emissions , Flames , Fuels , Nitrogen oxides , Combustion chambers , Pollution , Chemiluminescence
Comparing Spray and Flame Behavior in a Swirl Liquid Fueled Lean Burner With Single and Multipoint Injections
M. G. De Giorgi, Aldebara Sciolti, S. Campilongo, A. Ficarella
GT 2016; V04BT04A013https://doi.org/10.1115/GT2016-57353
View Articletitled, Comparing Spray and Flame Behavior in a Swirl Liquid Fueled Lean Burner With Single and Multipoint Injections
PDF
Topics: Flames , Sprays , Fuels , Combustion , Emissions , Combustion chambers , Computational fluid dynamics , Filters , Nitrogen oxides , Chemiluminescence
CFD Analysis of a SGT-800 Burner in a Combustion Rig
Abdallah Abou-Taouk, Niklas Andersson, Lars-Erik Eriksson, Daniel Lörstad
GT 2016; V04BT04A014https://doi.org/10.1115/GT2016-57423
View Articletitled, CFD Analysis of a SGT-800 Burner in a Combustion Rig
PDF
Topics: Combustion , Computational fluid dynamics , Chemistry , Turbulence , Atmospheric pressure , Flames , Pressure , Simulation , Eddies (Fluid dynamics) , Electrical discharge machining
Swirl Flame Response to Simultaneous Axial and Transverse Velocity Fluctuations
Aditya Saurabh, Jonas P. Moeck, Christian Oliver Paschereit
GT 2016; V04BT04A015https://doi.org/10.1115/GT2016-57428
View Articletitled, Swirl Flame Response to Simultaneous Axial and Transverse Velocity Fluctuations
PDF
Topics: Flames , Fluctuations (Physics) , Acoustics , Transfer functions
Gaseous Fuel Flame Stabilization in a Modular Swirled Burner
Roman A. Zubrilin, Ivan A. Zubrilin, Sergey S. Matveev, Sergey G. Matveev
GT 2016; V04BT04A016https://doi.org/10.1115/GT2016-57441
View Articletitled, Gaseous Fuel Flame Stabilization in a Modular Swirled Burner
PDF
Topics: Flames , Fuels , Combustion , Combustion chambers , Design , Chemistry , Computational fluid dynamics , Diffusers , Flamelet generated manifold , Flow (Dynamics)
Noise-Induced Dynamics in the Subthreshold Region in Thermoacoustic Systems
Aditya Saurabh, Lipika Kabiraj, Richard Steinert, Christian Oliver Paschereit
GT 2016; V04BT04A017https://doi.org/10.1115/GT2016-57442
View Articletitled, Noise-Induced Dynamics in the Subthreshold Region in Thermoacoustic Systems
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Topics: Dynamics (Mechanics) , Noise (Sound) , Bifurcation , Oscillations , Combustion , Combustion chambers , Flames , Flow (Dynamics) , Resonance , Turbulence
Effects of Fluidic Control of Air-Flow Distribution on Staged Lean Jet Engine Burner
Seiji Yoshida, Denis Schneider, Christoph Hassa
GT 2016; V04BT04A018https://doi.org/10.1115/GT2016-57453
View Articletitled, Effects of Fluidic Control of Air-Flow Distribution on Staged Lean Jet Engine Burner
PDF
Topics: Air flow , Jet engines , Combustion , Flow (Dynamics) , Fuels , Pressure , Nozzles , Switches , Thrust
Hydrogen Enriched Combustion Testing of Siemens SGT-400 at High Pressure Conditions
Kam-Kei Lam, Nishant Parsania
GT 2016; V04BT04A019https://doi.org/10.1115/GT2016-57470
View Articletitled, Hydrogen Enriched Combustion Testing of Siemens SGT-400 at High Pressure Conditions
PDF
Topics: Combustion , High pressure (Physics) , Hydrogen , Testing , Combustion systems , Engines , Dynamics (Mechanics) , Emissions , Fuels , Nitrogen oxides
Investigation of Fuel Distribution in Partially Premixed Swirled Burner With Pilot Flame
Sergey S. Matveev, Ivan A. Zubrilin, Mikhail Yu. Orlov, Sergey G. Matveev, Ivan V. Chechet
GT 2016; V04BT04A020https://doi.org/10.1115/GT2016-57478
View Articletitled, Investigation of Fuel Distribution in Partially Premixed Swirled Burner With Pilot Flame
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Topics: Flames , Fuels , Flow (Dynamics) , Combustion , Modeling , Computational fluid dynamics , Computer simulation , Emissions , Flamelet generated manifold , Fuel consumption
Investigation of Thermal and Stress States of the Annular Combustion Chamber Flame Tube Walls
Vladislav M. Anisimov, Ivan A. Zubrilin, Mikhail Y. Orlov
GT 2016; V04BT04A021https://doi.org/10.1115/GT2016-57479
View Articletitled, Investigation of Thermal and Stress States of the Annular Combustion Chamber Flame Tube Walls
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Topics: Combustion chambers , Flames , Stress , Simulation , Temperature , Cooling systems , Deformation , Design , Flow (Dynamics) , Fluid structure interaction
Comparison of Flame Transfer Functions Acquired by Chemiluminescence and Density Fluctuation
Johannes Peterleithner, Riccardo Basso, Franz Heitmeir, Jakob Woisetschläger, Raimund Schlüßler, Jürgen Czarske, Andreas Fischer
GT 2016; V04BT04A022https://doi.org/10.1115/GT2016-57485
View Articletitled, Comparison of Flame Transfer Functions Acquired by Chemiluminescence and Density Fluctuation
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Topics: Chemiluminescence , Density , Flames , Transfer functions , Fluctuations (Physics) , Waves , Heat , Lasers , Turbulence , Vortices
Analysis of Combustion Noise Using Locally Resolved Density Fluctuations and a Microphone Array
Johannes Peterleithner, Stefan Zerobin, Jakob Woisetschläger
GT 2016; V04BT04A023https://doi.org/10.1115/GT2016-57490
View Articletitled, Analysis of Combustion Noise Using Locally Resolved Density Fluctuations and a Microphone Array
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Topics: Combustion , Density , Fluctuations (Physics) , Microphone arrays , Noise (Sound) , Flames , Pressure , Acoustic intensity , Chemiluminescence , Excitation
Nonlinear Hydrodynamics of a Bluff-Body Stabilized Turbulent Premixed Flame
C. Y. Lee, R. S. Cant
GT 2016; V04BT04A024https://doi.org/10.1115/GT2016-57492
View Articletitled, Nonlinear Hydrodynamics of a Bluff-Body Stabilized Turbulent Premixed Flame
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Topics: Flames , Hydrodynamics , Turbulence , Oscillations , Computational fluid dynamics , Limit cycles , Chaos , Combustion , Density , Flow (Dynamics)
High-Frequency Thermoacoustic Modulation Mechanisms in Swirl-Stabilized Gas Turbine Combustors: Part Two — Modeling and Analysis
Tobias Hummel, Frederik Berger, Michael Hertweck, Bruno Schuermans, Thomas Sattelmayer
GT 2016; V04BT04A025https://doi.org/10.1115/GT2016-57500
View Articletitled, High-Frequency Thermoacoustic Modulation Mechanisms in Swirl-Stabilized Gas Turbine Combustors: Part Two — Modeling and Analysis
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Topics: Combustion chambers , Gas turbines , Modeling , Flames , Acoustics , Deformation , Displacement , Transfer functions , Feedback , Pressure
Large Eddy Simulation of a Realistic Gas Turbine Combustor
Baopeng Xu, Ya Liu, Rong Xie
GT 2016; V04BT04A026https://doi.org/10.1115/GT2016-57512
View Articletitled, Large Eddy Simulation of a Realistic Gas Turbine Combustor
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Topics: Combustion chambers , Gas turbines , Large eddy simulation , Flow (Dynamics) , Sprays , Combustion , Pressure , Dynamics (Mechanics) , Temperature , Vortices
Development of Requirements for Numerical Modeling of the Premixer Aerodynamic
Vladislav A. Nazukin, Valery G. Avgustinovich
GT 2016; V04BT04A027https://doi.org/10.1115/GT2016-57529
View Articletitled, Development of Requirements for Numerical Modeling of the Premixer Aerodynamic
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Topics: Computer simulation , Flow (Dynamics) , Swirling flow , Combustion chambers , Fuels , Geometry , Turbulence , Computation , Computational fluid dynamics , Design
Analysis of Time-Signal of an Industrial Gas Turbine Combustor Under an Unstable Condition
D. Lengani, P. Zunino, F. Romoli, E. Bertolotto, S. Rizzo
GT 2016; V04BT04A028https://doi.org/10.1115/GT2016-57545
View Articletitled, Analysis of Time-Signal of an Industrial Gas Turbine Combustor Under an Unstable Condition
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Topics: Combustion chambers , Industrial gases , Signals , Turbines , Limit cycles , Oscillations , Fluctuations (Physics) , Fourier transforms , Pressure , Wavelet transforms
High Frequency Thermoacoustic Modulation Mechanisms in Swirl-Stabilized Gas Turbine Combustors: Part One — Experimental Investigation of Local Flame Response
Frederik M. Berger, Tobias Hummel, Michael Hertweck, Jan Kaufmann, Bruno Schuermans, Thomas Sattelmayer
GT 2016; V04BT04A029https://doi.org/10.1115/GT2016-57583
View Articletitled, High Frequency Thermoacoustic Modulation Mechanisms in Swirl-Stabilized Gas Turbine Combustors: Part One — Experimental Investigation of Local Flame Response
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Topics: Combustion chambers , Flames , Gas turbines , Transfer functions , Heat , Acoustics , Chemiluminescence , Combustion , Dynamics (Mechanics) , Imaging
Development of a Model for Auto-Ignition Delays and its Use for the Prediction of Premix Combustion Reliability
Roda Bounaceur, Pierre-Alexandre Glaude, Baptiste Sirjean, René Fournet, Pierre Montagne, Matthieu Vierling, Michel Molière
GT 2016; V04BT04A030https://doi.org/10.1115/GT2016-57585
View Articletitled, Development of a Model for Auto-Ignition Delays and its Use for the Prediction of Premix Combustion Reliability
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Topics: Combustion , Delays , Ignition , Reliability , Fuels , Temperature , Pressure , Combustion chambers , Risk , Combustion technologies
Impact of Flame Stretch and Heat Loss on Heat Release Distributions in Gas Turbine Combustors: Model Comparison and Validation
Noah Klarmann, Thomas Sattelmayer, Weiqun Geng, Benjamin Timo Zoller, Fulvio Magni
GT 2016; V04BT04A031https://doi.org/10.1115/GT2016-57625
View Articletitled, Impact of Flame Stretch and Heat Loss on Heat Release Distributions in Gas Turbine Combustors: Model Comparison and Validation
PDF
Topics: Combustion chambers , Flames , Gas turbines , Heat , Heat losses , Combustion , Flamelet generated manifold , Chemiluminescence , Dimensions , Emissions
Predictive Emissions Monitoring System for Small Siemens Dry Low Emissions Combustors: Validation and Application
R. Hackney, S. K. Sadasivuni, J. W. Rogerson, G. Bulat
GT 2016; V04BT04A032https://doi.org/10.1115/GT2016-57656
View Articletitled, Predictive Emissions Monitoring System for Small Siemens Dry Low Emissions Combustors: Validation and Application
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Topics: Combustion chambers , Emissions , Monitoring systems , Engines , Network models , Fuels , High pressure (Physics) , Industrial gases , Modeling , Nitrogen oxides
Uncertainty Quantification of Growth Rates of Thermoacoustic Instability by an Adjoint Helmholtz Solver
Camilo F. Silva, Thomas Runte, Wolfgang Polifke, Luca Magri
GT 2016; V04BT04A033https://doi.org/10.1115/GT2016-57659
View Articletitled, Uncertainty Quantification of Growth Rates of Thermoacoustic Instability by an Adjoint Helmholtz Solver
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Topics: Acoustics , Combustion , Delays , Density , Dynamics (Mechanics) , Eigenvalues , Engineering simulation , Flames , Geometry , Probability
A Kinetics Model for the Shockless Explosion Combustion
Phillip Berndt, Rupert Klein, C. Oliver Paschereit
GT 2016; V04BT04A034https://doi.org/10.1115/GT2016-57678
View Articletitled, A Kinetics Model for the Shockless Explosion Combustion
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Topics: Combustion , Explosions , Ignition , Fuels , Optimization , Temperature , Chemical kinetics , Computational fluid dynamics , Gasdynamics , Simulation
Shockless Explosion Combustion: Experimental Investigation of a New Approximate Constant Volume Combustion Process
Thoralf G. Reichel, Bernhard C. Bobusch, Christian Oliver Paschereit, Jan-Simon Schäpel, Rudibert King, Rupert Klein
GT 2016; V04BT04A035https://doi.org/10.1115/GT2016-57680
View Articletitled, Shockless Explosion Combustion: Experimental Investigation of a New Approximate Constant Volume Combustion Process
PDF
Topics: Combustion , Explosions , Fuels , Pressure , Control algorithms , Gas turbines , Shock waves , Combustion systems , Delays , Entropy
Control of the Precessing Vortex Core by Open and Closed-Loop Forcing in the Jet Core
Phoebe Kuhn, Jonas P. Moeck, Christian Oliver Paschereit, Kilian Oberleithner
GT 2016; V04BT04A036https://doi.org/10.1115/GT2016-57686
View Articletitled, Control of the Precessing Vortex Core by Open and Closed-Loop Forcing in the Jet Core
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Topics: Vortices , Flow (Dynamics) , Locks (Waterways) , Oscillations , Actuators , Feedback , Jets , Signals , Wire , Bubbles
Investigation of Siemens SGT-800 Industrial Gas Turbine Combustor Using Different Combustion and Turbulence Models
Daniel Lörstad, Anders Ljung, Abdallah Abou-Taouk
GT 2016; V04BT04A037https://doi.org/10.1115/GT2016-57694
View Articletitled, Investigation of Siemens SGT-800 Industrial Gas Turbine Combustor Using Different Combustion and Turbulence Models
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Topics: Combustion , Combustion chambers , Industrial gases , Turbines , Turbulence , Emissions , Flames , Gas turbines , Calibration , Chemistry
Identification of Multi-Parameter Flame Transfer Function for a Reheat Combustor
Alessandro Scarpato, Lisa Zander, Rohit Kulkarni, Bruno Schuermans
GT 2016; V04BT04A038https://doi.org/10.1115/GT2016-57699
View Articletitled, Identification of Multi-Parameter Flame Transfer Function for a Reheat Combustor
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Topics: Combustion chambers , Flames , Transfer functions , Combustion systems , Dynamic response , Gas turbines , Emissions , Engineering simulation , Engines , Fluctuations (Physics)
Detailed Examination of Two-Staged Micro Gas Turbine Combustor
A. Schwärzle, T. O. Monz, M. Aigner
GT 2016; V04BT04A039https://doi.org/10.1115/GT2016-57730
View Articletitled, Detailed Examination of Two-Staged Micro Gas Turbine Combustor
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Topics: Combustion chambers , Micro gas turbines , Emissions , Fuels , Nitrogen oxides , Flames , Atmospheric pressure , Chemiluminescence , Combustion , Combustion systems
Emissions of a Wet Premixed Flame of Natural Gas and a Mixture With Hydrogen at High Pressure
P. Stathopoulos, P. Kuhn, J. Wendler, T. Tanneberger, S. Terhaar, C. O. Paschereit, C. Schmalhofer, P. Griebel, M. Aigner
GT 2016; V04BT04A040https://doi.org/10.1115/GT2016-57745
View Articletitled, Emissions of a Wet Premixed Flame of Natural Gas and a Mixture With Hydrogen at High Pressure
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Topics: Emissions , Flames , High pressure (Physics) , Hydrogen , Natural gas , Steam , Combustion chambers , Fuels , Pressure , Chemical processes
Flow Dynamics in Single and Multi-Nozzle Swirl Flames
Travis Smith, Benjamin Emerson, Ianko Chterev, David R. Noble, Tim Lieuwen
GT 2016; V04BT04A041https://doi.org/10.1115/GT2016-57755
View Articletitled, Flow Dynamics in Single and Multi-Nozzle Swirl Flames
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Topics: Flames , Flow (Dynamics) , Nozzles , Dynamics (Mechanics) , Hardware , Shear (Mechanics) , Accounting , Combustion , Combustion chambers , Combustion systems
Acoustic Damper Placement and Tuning for Annular Combustors: An Adjoint-Based Optimization Study
Georg A. Mensah, Jonas P. Moeck
GT 2016; V04BT04A042https://doi.org/10.1115/GT2016-57799
View Articletitled, Acoustic Damper Placement and Tuning for Annular Combustors: An Adjoint-Based Optimization Study
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Topics: Acoustics , Combustion chambers , Dampers , Optimization , Design , Algebra , Algorithms , Gas turbines
A Comparison of Turbulent Flame Speed Correlations for Hydrocarbon Fuels at Elevated Pressures
Eoin M. Burke, Felix Güthe, Rory F. D. Monaghan
GT 2016; V04BT04A043https://doi.org/10.1115/GT2016-57804
View Articletitled, A Comparison of Turbulent Flame Speed Correlations for Hydrocarbon Fuels at Elevated Pressures
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Topics: Flames , Fuels , Turbulence , Errors , Combustion , Methane , Modeling
Thermodynamic Evaluation of Pulse Detonation Combustion for Gas Turbine Power Cycles
J. A. T. Gray, J. Vinkeloe, J. Moeck, C. O. Paschereit, P. Stathopoulos, P. Berndt, R. Klein
GT 2016; V04BT04A044https://doi.org/10.1115/GT2016-57813
View Articletitled, Thermodynamic Evaluation of Pulse Detonation Combustion for Gas Turbine Power Cycles
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Topics: Combustion , Explosions , Gas turbines , Thermodynamic power cycles , Cycles , Pressure , Turbines , Combustion chambers , Compressors , Exhaust systems
Linearized Euler Equations for the Prediction of Linear High-Frequency Stability in Gas Turbine Combustors
Moritz Schulze, Tobias Hummel, Noah Klarmann, Frederik Berger, Bruno Schuermans, Thomas Sattelmayer
GT 2016; V04BT04A045https://doi.org/10.1115/GT2016-57818
View Articletitled, Linearized Euler Equations for the Prediction of Linear High-Frequency Stability in Gas Turbine Combustors
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Topics: Combustion chambers , Gas turbines , Stability , Acoustics , Flames , Flow (Dynamics) , Oscillations , Combustion , Computational fluid dynamics , Damping
Coupled CFD and Heat Transfer Analysis for a Small Scale Gas Turbine Combustor
Altuğ Pişkin, Ahmet Topal
GT 2016; V04BT04A046https://doi.org/10.1115/GT2016-57846
View Articletitled, Coupled CFD and Heat Transfer Analysis for a Small Scale Gas Turbine Combustor
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Topics: Combustion chambers , Computational fluid dynamics , Gas turbines , Heat transfer , Design , Temperature , Boundary-value problems , Finite element analysis , Finite element methods , Finite element model
Experimental and Numerical Investigation of Direct and Indirect Combustion Noise Contributions in a Lean Premixed Laboratory Swirled Combustor
Nancy Kings, Wenjie Tao, Philippe Scouflaire, Franck Richecoeur, Sébastien Ducruix
GT 2016; V04BT04A047https://doi.org/10.1115/GT2016-57848
View Articletitled, Experimental and Numerical Investigation of Direct and Indirect Combustion Noise Contributions in a Lean Premixed Laboratory Swirled Combustor
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Topics: Combustion , Combustion chambers , Noise (Sound) , Fluctuations (Physics) , Emissions , Entropy , Acoustics , Aircraft engines , Heat , Inflow
Low-Order Modeling of Nonlinear High-Frequency Transversal Thermoacoustic Oscillations in Gas Turbine Combustors
Tobias Hummel, Klaus Hammer, Pedro Romero, Bruno Schuermans, Thomas Sattelmayer
GT 2016; V04BT04A048https://doi.org/10.1115/GT2016-57913
View Articletitled, Low-Order Modeling of Nonlinear High-Frequency Transversal Thermoacoustic Oscillations in Gas Turbine Combustors
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Topics: Combustion chambers , Gas turbines , Modeling , Oscillations , Acoustics , Flames , Dynamic systems , Dynamics (Mechanics) , Combustion , Damping
Large Eddy Simulation of Soot Formation in a Model Gas Turbine Combustor
Heeseok Koo, Malik Hassanaly, Venkat Raman, Michael E. Mueller, Klaus Peter Geigle
GT 2016; V04BT04A049https://doi.org/10.1115/GT2016-57952
View Articletitled, Large Eddy Simulation of Soot Formation in a Model Gas Turbine Combustor
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Topics: Combustion chambers , Gas turbines , Large eddy simulation , Soot , Fuels , Jets , Oxidation , Turbulence , Aircraft , Aircraft engines
E-Class Late Fuel Staging Technology Delivers Flexibility Leap
Carey E. Romoser, James Harper, Matthew B. Wilson, Derrick W. Simons, Joseph V. Citeno, Mihir Lal
GT 2016; V04BT04A050https://doi.org/10.1115/GT2016-57964
View Articletitled, E-Class Late Fuel Staging Technology Delivers Flexibility Leap
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Topics: Fuels , Machinery , Combustion technologies , Emissions , Gas turbines , Modeling , Physics , Stress , Testing
Investigation of Single Jet Combustor Using Flamelet Generated Manifold Combustion Model and Detailed Chemistry
Sunil Patil, Judy Cooper, Stefano Orsino, Joseph Meadows, Richard Valdes, Walter R. Laster
GT 2016; V04BT04A051https://doi.org/10.1115/GT2016-57986
View Articletitled, Investigation of Single Jet Combustor Using Flamelet Generated Manifold Combustion Model and Detailed Chemistry
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Topics: Chemistry , Combustion , Combustion chambers , Flamelet generated manifold , Flames , Elastic scattering , Natural gas , Raman effect , Atmospheric pressure , Combustion systems
Application of a Turbulent Jet Flame Flashback Propensity Model to a Commercial Gas Turbine Combustor
Alireza Kalantari, Elliot Sullivan-Lewis, Vincent McDonell
GT 2016; V04BT04A052https://doi.org/10.1115/GT2016-58059
View Articletitled, Application of a Turbulent Jet Flame Flashback Propensity Model to a Commercial Gas Turbine Combustor
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Topics: Combustion chambers , Flames , Gas turbines , Turbulence , Temperature , Engines , Design , Pressure , Hydrogen , Atmospheric pressure
Effect of Preheating on Flame Structure of a Swirl Stabilized Combustor With Porous Insert to Control Thermoacoustics
Daniel L. Depperschmidt, John A. Kornegay, James C. Allen, Ajay K. Agrawal
GT 2016; V04BT04A053https://doi.org/10.1115/GT2016-58064
View Articletitled, Effect of Preheating on Flame Structure of a Swirl Stabilized Combustor With Porous Insert to Control Thermoacoustics
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Topics: Combustion chambers , Flames , Thermoacoustics , Combustion , Oscillations , Pressure , Emissions , Energy generation , Flow (Dynamics) , Fluorescence
CFD Modeling of Equivalence Ratio Effects on a Pressurized Turbulent Premixed Flame
Sandeep E. Jella, Jeffrey M. Bergthorson, Pierre Q. Gauthier, Gilles Bourque
GT 2016; V04BT04A054https://doi.org/10.1115/GT2016-58074
View Articletitled, CFD Modeling of Equivalence Ratio Effects on a Pressurized Turbulent Premixed Flame
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Topics: Computational fluid dynamics , Flames , Modeling , Turbulence , Chemistry , Reynolds-averaged Navier–Stokes equations , Acoustics , Databases , Emissions , Gas turbines
Flameless Oxidation Combustor Development for a Sequential Combustion Hybrid Turbofan Engine
Y. Levy, V. Erenburg, V. Sherbaum, I. Gaissinski
GT 2016; V04BT04A055https://doi.org/10.1115/GT2016-58079
View Articletitled, Flameless Oxidation Combustor Development for a Sequential Combustion Hybrid Turbofan Engine
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Topics: Combustion , Combustion chambers , Engines , Oxidation , Turbofans , Design , Combustion systems , Computational fluid dynamics , Engineering simulation , Nitrogen oxides
Large Eddy Simulation of a Multiple-Injection Dry Low NOx Combustor for Hydrogen-Rich Syngas Fuel at High Pressure
Keita Yunoki, Tomoya Murota, Tomohiro Asai, Teruyuki Okazaki
GT 2016; V04BT04A056https://doi.org/10.1115/GT2016-58119
View Articletitled, Large Eddy Simulation of a Multiple-Injection Dry Low NO<sub>x</sub> Combustor for Hydrogen-Rich Syngas Fuel at High Pressure
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Topics: Combustion chambers , Fuels , High pressure (Physics) , Hydrogen , Large eddy simulation , Nitrogen oxides , Syngas , Combustion , Flames , Turbulence
Linear Growth Rate Estimation From Dynamics and Statistics of Acoustic Signal Envelope in Turbulent Combustors
Nicolas Noiray
GT 2016; V04BT04A057https://doi.org/10.1115/GT2016-58169
View Articletitled, Linear Growth Rate Estimation From Dynamics and Statistics of Acoustic Signal Envelope in Turbulent Combustors
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Topics: Acoustics , Combustion chambers , Dynamics (Mechanics) , Signals , Statistics , Turbulence , Gas turbines , Combustion , Computer simulation , Emissions
Dynamical Properties of Combustion Instability in a Laboratory-Scale Gas-Turbine Model Combustor
Hiroshi Gotoda, Kenta Hayashi, Ryosuke Tsujimoto, Shohei Domen, Shigeru Tachibana
GT 2016; V04BT04A058https://doi.org/10.1115/GT2016-58170
View Articletitled, Dynamical Properties of Combustion Instability in a Laboratory-Scale Gas-Turbine Model Combustor
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Topics: Combustion , Combustion chambers , Gas turbines , Chaos , Oscillations , Algorithms , Entropy , Flames , Nonlinear dynamics , Radial basis function networks
Investigation of Ducted Inverse Nonpremixed Flame Using Dynamic Systems Approach
Uddalok Sen, Tryambak Gangopadhyay, Chandrachur Bhattacharya, Arpan Misra, Suman Karmakar, Preetam Sengupta, Achintya Mukhopadhyay, Swarnendu Sen
GT 2016; V04BT04A059https://doi.org/10.1115/GT2016-58179
View Articletitled, Investigation of Ducted Inverse Nonpremixed Flame Using Dynamic Systems Approach
PDF
Topics: Dynamic systems , Flames , Diffusion flames , Ducts , Fuels , Gas turbines , Acoustics , Air flow , Aviation , Combustion
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