Skip to Main Content
American Society of Mechanical Engineers: Digital Collection
Cart
header search
Search
Advanced Search
Skip Nav Destination

Proceedings Papers

Proceedings Volume Cover
ASME 1996 International Gas Turbine and Aeroengine Congress and Exhibition
June 10–13, 1996
Birmingham, UK
Conference Sponsors:
  • International Gas Turbine Institute
ISBN:
978-0-7918-7874-3
Volume 3: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations

Coal, Biomass and Alternative Fuels

Coal/Biomass Fuels and the Gas Turbine: Utilization of Solid Fuels and Their Derivatives
Mario DeCorso, Richard Newby, Don Anson, Richard Wenglarz, Ian Wright
GT 1996; V003T05A001https://doi.org/10.1115/96-GT-076
View Articletitled, Coal/Biomass Fuels and the Gas Turbine: Utilization of Solid Fuels and Their Derivatives
PDF
Topics: Biomass , Coal , Fuels , Gas turbines , Corrosion , Design , Erosion , Gases , Natural gas , Resolution (Optics)
Externally Fired Evaporative Gas Turbine With a Condensing Heat Exchanger
Jinyue Yan, Lars Eidensten, Gunnar Svedberg
GT 1996; V003T05A002https://doi.org/10.1115/96-GT-077
View Articletitled, Externally Fired Evaporative Gas Turbine With a Condensing Heat Exchanger
PDF
Topics: Gas turbines , Heat exchangers , Exhaust systems , Cycles , Fuels , Gases , Heat , Laws of thermodynamics , Particulate matter , Steam turbines
Simultaneous Hot Desulfurization and Improved Filtration in Coal Utilization Processes
James F. Zievers, Parul Patel, Paul Eggerstedt, Elizabeth C. Zievers
GT 1996; V003T05A003https://doi.org/10.1115/96-GT-087
View Articletitled, Simultaneous Hot Desulfurization and Improved Filtration in Coal Utilization Processes
PDF
Topics: Coal , Desulfurization , Filtration , Metals , Sorbents , Ceramic filters , Dust , High temperature , Particle size , Permeability
Development of Gas Turbine for Air-Blown Gasification
K. Wada, T. Sasada, H. Hayashi
GT 1996; V003T05A004https://doi.org/10.1115/96-GT-088
View Articletitled, Development of Gas Turbine for Air-Blown Gasification
PDF
Topics: Fuel gasification , Gas turbines , Coal , Combustion chambers , Combustion , Fuels , Fire , Linkages , Machinery , Simulation
Performance Modeling of Aeroderivative Steam-Injected Gas Turbines and Combined Cycles Fueled From Fixed or Fluid-Bed Biomass Gasifiers
Eric D. Larson, Wendy E. M. Hughes
GT 1996; V003T05A005https://doi.org/10.1115/96-GT-089
View Articletitled, Performance Modeling of Aeroderivative Steam-Injected Gas Turbines and Combined Cycles Fueled From Fixed or Fluid-Bed Biomass Gasifiers
PDF
Topics: Biomass , Combined cycles , Fluids , Gas turbines , Modeling , Steam , Cycles , Fuel gasification , Fuels , Power stations
Adaptability of the Solar Advanced Turbine Systems to Biomass and Coal Derived Fuels
David J. White, Richard T. LeCren, Chaur S. Wen
GT 1996; V003T05A006https://doi.org/10.1115/96-GT-090
View Articletitled, Adaptability of the Solar Advanced Turbine Systems to Biomass and Coal Derived Fuels
PDF
Topics: Biomass , Coal , Fuels , Solar energy , Turbines , Fuel gasification , Combustion , Gas turbines , Natural gas , Combined cycles
Assessment of Humid Air Turbines in Coal-Fired High Performance Power Systems
Julianne M. Klara, Robert M. Enick, Scott M. Klara, Lawrence E. Van Bibber
GT 1996; V003T05A007https://doi.org/10.1115/96-GT-091
View Articletitled, Assessment of Humid Air Turbines in Coal-Fired High Performance Power Systems
PDF
Topics: Coal , Power systems (Machinery) , Turbines , High-integrity pressure protection system , Fuels , Power stations , Thermal efficiency , Carbon dioxide , Combined cycles , Combustion
Externally Fired Combined Cycles (EFCC): Part A — Thermodynamics and Technological Issues
Stefano Consonni, Ennio Macchi, Francesco Farina
GT 1996; V003T05A008https://doi.org/10.1115/96-GT-092
View Articletitled, Externally Fired Combined Cycles (EFCC): Part A — Thermodynamics and Technological Issues
PDF
Topics: Combined cycles , Thermodynamics , Ceramics , Coal , Combustion chambers , Cycles , Gas turbines , Heat exchangers , Atmospheric pressure , Biomass
Externally Fired Combined Cycles (EFCC): Part B — Alternative Configurations and Cost Projections
Stefano Consonni, Ennio Macchi
GT 1996; V003T05A009https://doi.org/10.1115/96-GT-093
View Articletitled, Externally Fired Combined Cycles (EFCC): Part B — Alternative Configurations and Cost Projections
PDF
Topics: Combined cycles , High temperature , Heat exchangers , Biomass , Coal , Combustion , Combustion chambers , Cycles , Design , Fuels
Modeling Sulfur Dioxide Capture in a Pulverized Coal Combustor
Rajesh B. Nair, Savas Yavuzkurt
GT 1996; V003T05A010https://doi.org/10.1115/96-GT-112
View Articletitled, Modeling Sulfur Dioxide Capture in a Pulverized Coal Combustor
PDF
Topics: Coal , Combustion chambers , Modeling , Sulfur , Particulate matter , Combustion , Diffusion (Physics) , Heat , Mass transfer , Sintering
Next-Generation Integration Concepts for Air Separation Units and Gas Turbines
Arthur R. Smith, Joseph Klosek, Donald W. Woodward
GT 1996; V003T05A011https://doi.org/10.1115/96-GT-144
View Articletitled, Next-Generation Integration Concepts for Air Separation Units and Gas Turbines
PDF
Topics: Gas turbines , Separation (Technology) , Integrated gasification combined cycle power stations , Pressure , Coal , Combined cycles , Compressed air , Compression , Cycles , Emissions
Numerical Simulation of Particulate Two-Phase Flows in Curved Pipeline Geometries
S. Naik
GT 1996; V003T05A012https://doi.org/10.1115/96-GT-303
View Articletitled, Numerical Simulation of Particulate Two-Phase Flows in Curved Pipeline Geometries
PDF
Topics: Computer simulation , Particulate matter , Pipelines , Two-phase flow , Ducts , Turbulence , Combustion chambers , Flow (Dynamics) , Pipes , Probability
Biomass Gasification Hot Gas Filter Testing Results
Benjamin C. Wiant, Dennis M. Bachovchin, Michael Onischak, Ronald H. Carty, Matthew Ratcliff
GT 1996; V003T05A013https://doi.org/10.1115/96-GT-336
View Articletitled, Biomass Gasification Hot Gas Filter Testing Results
PDF
Topics: Biomass , Filters , Fuel gasification , Testing , Bagasse , Filtration , Fluidized beds , Fly ash , Gas turbines , Oils
Experimental Determination of the Influence of Foreign Particle Ingestion on the Behavior of Hot-Section Components Including Lamilloy®
Matthew M. Weaver, Michael G. Dunn, Tab Heffernan
GT 1996; V003T05A014https://doi.org/10.1115/96-GT-337
View Articletitled, Experimental Determination of the Influence of Foreign Particle Ingestion on the Behavior of Hot-Section Components Including Lamilloy®
PDF
Topics: Particulate matter , Combustion chambers , Cooling , Dust , Engines , Temperature , Compressors , Cylinders , Electrical discharge machining , Flow measurement
Measurement of Erosion/Corrosion Damage to Gas Turbine Components
John E. Oakey, Nigel J. Simms
GT 1996; V003T05A015https://doi.org/10.1115/96-GT-396
View Articletitled, Measurement of Erosion/Corrosion Damage to Gas Turbine Components
PDF
Topics: Corrosion , Damage , Erosion , Gas turbines , Metrology , Airfoils , Cross section (Physics) , Dimensions , Heat exchangers , Metals
Rich-Quench-Lean Combustion for Multiple Fuels
Dennis M. Bachovchin, William F. Domeracki
GT 1996; V003T05A016https://doi.org/10.1115/96-GT-448
View Articletitled, Rich-Quench-Lean Combustion for Multiple Fuels
PDF
Topics: Biomass , Coal , Combustion , Combustion chambers , Compressors , Design , Emissions , Fuels , Gas turbines , Gaseous fuels
Design and Performance of Low Heating Value Fuel Gas Turbine Combustors
Robert A. Battista, Alan S. Feitelberg, Michael A. Lacey
GT 1996; V003T05A017https://doi.org/10.1115/96-GT-531
View Articletitled, Design and Performance of Low Heating Value Fuel Gas Turbine Combustors
PDF
Topics: Combustion chambers , Design , Gaseous fuels , Heating , Turbines , Temperature , Fuels , Nozzles , Emissions , Flames
Economic Scales for First-Generation Biomass-Gasifier/Gas Turbine Combined Cycles Fueled From Energy Plantations
Eric D. Larson, Christopher I. Marrison
GT 1996; V003T05A018https://doi.org/10.1115/96-GT-540
View Articletitled, Economic Scales for First-Generation Biomass-Gasifier/Gas Turbine Combined Cycles Fueled From Energy Plantations
PDF
Topics: Biomass , Combined cycles , Gas turbines , Atmospheric pressure , Power stations , Fuel gasification

Combustion and Fuels

Design and Development of a Landfill Gas Combustion System for the Typhoon Gas Turbine
David J. Ecob, Michael B. Boyns, Steve Walsh, Ken McClave, A. Allen Hunt, Jr.
GT 1996; V003T06A001https://doi.org/10.1115/96-GT-015
View Articletitled, Design and Development of a Landfill Gas Combustion System for the Typhoon Gas Turbine
PDF
Topics: Combustion systems , Design , Gas turbines , Sanitary landfills , Combustion , Engines , Carbon , Diesel , Testing , Ejectors
Application of Rainbow Thermometry to the Study of Fuel Droplet Heat-Up and Evaporation Characteristics
Subramanian V. Sankar, Dale H. Buermann, William D. Bachalo
GT 1996; V003T06A002https://doi.org/10.1115/96-GT-021
View Articletitled, Application of Rainbow Thermometry to the Study of Fuel Droplet Heat-Up and Evaporation Characteristics
PDF
Topics: Drops , Evaporation , Fuels , Heat , Temperature measurement , Combustion , Temperature , Ethanol , Flames , Flow (Dynamics)
Dry Low NOx Combustion Systems for GE Heavy-Duty Gas Turbines
L. Berkley Davis
GT 1996; V003T06A003https://doi.org/10.1115/96-GT-027
View Articletitled, Dry Low NO<sub>x</sub> Combustion Systems for GE Heavy-Duty Gas Turbines
PDF
Topics: Combustion systems , Gas turbines , Nitrogen oxides
Development of a Small Low NOx Combustor With a Staging System for an Aircraft Engine: Part 1
Masayoshi Kobayashi, Masashi Arai, Toshiyuki Kuyama
GT 1996; V003T06A004https://doi.org/10.1115/96-GT-043
View Articletitled, Development of a Small Low NOx Combustor With a Staging System for an Aircraft Engine: Part 1
PDF
Topics: Aircraft engines , Combustion chambers , Nitrogen oxides , Fuels , Combustion , Nozzles , Design , Flames
Techniques to Characterize the Thermal-Oxidation Stability of Jet Fuels and the Effects of Additives
V. Vilimpoc, B. Sarka, W. L. Weaver, J. R. Gord, S. Anderson
GT 1996; V003T06A005https://doi.org/10.1115/96-GT-044
View Articletitled, Techniques to Characterize the Thermal-Oxidation Stability of Jet Fuels and the Effects of Additives
PDF
Topics: Jet fuels , Oxidation , Stability , Oxygen , Dynamic light scattering , Fluorescence , Metals , Particle size , Particulate matter , Plasticizers
Development of an Improved Hybrid Burner: Initial Operating Experience in a Gas Turbine
Bernd Prade, Holger Streb, Peter Berenbrink, Bernhard Schetter, Gottfried Pyka
GT 1996; V003T06A006https://doi.org/10.1115/96-GT-045
View Articletitled, Development of an Improved Hybrid Burner: Initial Operating Experience in a Gas Turbine
PDF
Topics: Gas turbines , Emissions , Nitrogen oxides , Combustion , Temperature , Combustion chambers , Compressors , Flames , Fuels , Ignition
Deposit Formation From No. 2 Distillate at Gas Turbine Conditions
Anthony J. Dean, Jean E. Bradt, John F. Ackerman
GT 1996; V003T06A007https://doi.org/10.1115/96-GT-046
View Articletitled, Deposit Formation From No. 2 Distillate at Gas Turbine Conditions
PDF
Topics: Gas turbines , Fuels , Temperature , Combustion chambers , Carbon , Flow (Dynamics) , Geometry , Nitrogen oxides , Nozzles , Oxygen
Combustion of Liquid Fuels in the Well Stirred Reactor
J. Zelina, J. W. Blust, D. R. Ballal
GT 1996; V003T06A008https://doi.org/10.1115/96-GT-047
View Articletitled, Combustion of Liquid Fuels in the Well Stirred Reactor
PDF
Topics: Combustion , Fuels , Emissions , Combustion chambers , Equilibrium (Physics) , Nitrogen oxides , Carbon dioxide , Design , Gas turbines , Heptane
Numerical and Experimental Investigation of a Rich Quench Lean Combustor Sector
Johannes W. Koopman, Peter Griebel, Christoph Hassa
GT 1996; V003T06A009https://doi.org/10.1115/96-GT-048
View Articletitled, Numerical and Experimental Investigation of a Rich Quench Lean Combustor Sector
PDF
Topics: Combustion chambers , Flow (Dynamics) , Temperature , Nitrogen oxides
An Advanced Development of a Second-Generation Dry, Low-NOx Combustor for 1.5MW Gas Turbine
Shin-ichi Kajita, Shin-ichi Ohga, Masahiro Ogata, Satoru Itaka, Jun-ichi Kitajima, Takeshi Kimura, Atsushi Okuto
GT 1996; V003T06A010https://doi.org/10.1115/96-GT-049
View Articletitled, An Advanced Development of a Second-Generation Dry, Low-NOx Combustor for 1.5MW Gas Turbine
PDF
Topics: Combustion chambers , Gas turbines , Nitrogen oxides , Combustion , Fuels , Stress , Combustion systems , Cooling , Cycles , Emissions
Excited Turbulent Reacting Flows in a Chamber With Gaseous Fuels Injecting Through Porous Walls
Tong-Miin Liou, Po-Wen Hwang, Wan-Yih Lien
GT 1996; V003T06A011https://doi.org/10.1115/96-GT-050
View Articletitled, Excited Turbulent Reacting Flows in a Chamber With Gaseous Fuels Injecting Through Porous Walls
PDF
Topics: Flow (Dynamics) , Gaseous fuels , Turbulence , Combustion , Excitation , Vorticity , Dynamics (Mechanics) , Flames , Chemical reactions , Combustion chambers
NOx Control in Black Liquor Fuel Gas Combined Cycles
Rebecca N. Sliger, Marcel D. Berz, John C. Kramlich, Philip C. Malte
GT 1996; V003T06A012https://doi.org/10.1115/96-GT-051
View Articletitled, NO<sub>x</sub> Control in Black Liquor Fuel Gas Combined Cycles
PDF
Topics: Combined cycles , Gaseous fuels , Nitrogen oxides , Sulfate waste liquor , Combustion chambers , Emissions , Fuel gasification , Gas turbines , Boilers , Combustion
Experiments With a Gas Turbine Model Combustor Firing Blast-Furnace Gas
Yansong Liu, Jürg Schmidli
GT 1996; V003T06A013https://doi.org/10.1115/96-GT-052
View Articletitled, Experiments With a Gas Turbine Model Combustor Firing Blast-Furnace Gas
PDF
Topics: Blast furnaces , Combustion chambers , Firing , Gas turbines , Fuels , Chemical kinetics , Flames , Nitrogen oxides , Stability , Coke
Development of a Dry Low NOx Combustor for 2MW Class Gas Turbine
J. Hosoi, T. Watanabe, H. Toh, M. Mori, H. Sato, A. Ishizuka
GT 1996; V003T06A014https://doi.org/10.1115/96-GT-053
View Articletitled, Development of a Dry Low NOx Combustor for 2MW Class Gas Turbine
PDF
Topics: Combustion chambers , Gas turbines , Nitrogen oxides , Combustion , Stress , Control systems , Cooling
Dynamic Response of Fuel Nozzles for Liquid-Fueled Gas Turbine Combustors
Mounir Ibrahim, Terry Sanders, Douglas Darling, Michelle Zaller
GT 1996; V003T06A015https://doi.org/10.1115/96-GT-054
View Articletitled, Dynamic Response of Fuel Nozzles for Liquid-Fueled Gas Turbine Combustors
PDF
Topics: Combustion chambers , Dynamic response , Fuels , Gas turbines , Nozzles , Sprays , Drops , Flow (Dynamics) , Fluids , Fuel delivery systems
Empirical and Semi-Empirical Correlation of Emissions Data From Modern Turbopropulsion Gas Turbine Engines
Allen M. Danis, Byron A. Pritchard, Hukam C. Mongia
GT 1996; V003T06A016https://doi.org/10.1115/96-GT-086
View Articletitled, Empirical and Semi-Empirical Correlation of Emissions Data From Modern Turbopropulsion Gas Turbine Engines
PDF
Topics: Emissions , Gas turbines , Nitrogen oxides , Combustion chambers , Engines , Modeling
Low NOx Premixed Combustion of MBtu Fuels in a Research Burner
K. Döbbeling, A. Eroglu, D. Winkler, T. Sattelmayer, W. Keppel
GT 1996; V003T06A017https://doi.org/10.1115/96-GT-126
View Articletitled, Low NO<sub>x</sub> Premixed Combustion of MBtu Fuels in a Research Burner
PDF
Topics: Combustion , Fuels , Nitrogen oxides , Flames , Glass , High pressure (Physics) , Quartz , Atmospheric pressure , Fluorescence , Geometry
Fuel Nozzle Aerodynamic Design Using CFD Analysis
D. Scott Crocker, Eric J. Fuller, Clifford E. Smith
GT 1996; V003T06A018https://doi.org/10.1115/96-GT-127
View Articletitled, Fuel Nozzle Aerodynamic Design Using CFD Analysis
PDF
Topics: Computational fluid dynamics , Design , Fuels , Nozzles , Modeling , Swirling flow , Aerodynamics , Air flow , Boundary-value problems , Design methodology
Characterization of NOx, N2O, and CO for Lean-Premixed Combustion in a High-Pressure Jet-Stirred Reactor
Robert C. Steele, Jon H. Tonouchi, David G. Nicol, David C. Horning, Philip C. Malte, David T. Pratt
GT 1996; V003T06A019https://doi.org/10.1115/96-GT-128
View Articletitled, Characterization of NOx, N<sub>2</sub>O, and CO for Lean-Premixed Combustion in a High-Pressure Jet-Stirred Reactor
PDF
Topics: Combustion , High pressure (Physics) , Nitrogen oxides , Atoms , Chemical reactions , Combustion chambers , Equilibrium (Physics) , Gasdynamics , Oxidation , Probes
NOx Measurements for Combustor With Acoustically Controlled Primary Zone
Peter J. Vermeulen, Venkataramanayya Ramesh
GT 1996; V003T06A020https://doi.org/10.1115/96-GT-129
View Articletitled, <em>NO</em><sub><em>x</em></sub> Measurements for Combustor With Acoustically Controlled Primary Zone
PDF
Topics: Acoustics , Combustion chambers , Nitrogen oxides , Stress , Air jets , Air flow , Design , Gas turbines , Temperature , Temperature distribution
Catalytic Combustion of Natural Gas Over Supported Platinum: Flow Reactor Experiments and Detailed Numerical Modeling
Tami C. Bond, Ryan A. Noguchi, Chen-Pang Chou, Rajiv K. Mongia, Jyh-Yuan Chen, Robert W. Dibble
GT 1996; V003T06A021https://doi.org/10.1115/96-GT-130
View Articletitled, Catalytic Combustion of Natural Gas Over Supported Platinum: Flow Reactor Experiments and Detailed Numerical Modeling
PDF
Topics: Combustion , Computer simulation , Flow (Dynamics) , Natural gas , Platinum , Fuels , Nitrogen oxides , Catalysts , Temperature , Emissions
Structure of Airblast Sprays Under High Ambient Pressure Conditions
Q. P. Zheng, A. K. Jasuja, A. H. Lefebvre
GT 1996; V003T06A022https://doi.org/10.1115/96-GT-131
View Articletitled, Structure of Airblast Sprays Under High Ambient Pressure Conditions
PDF
Topics: Pressure , Sprays , Fuels , Flow (Dynamics) , Swirling flow , Aviation , Imaging , Lasers , Nozzles , Particulate matter
The Effects of Dissolved Oxygen Concentration, Fractional Oxygen Consumption, and Additives on JP-8 Thermal Stability
J. S. Ervin, T. F. Williams, S. P. Heneghan, S. Zabarnick
GT 1996; V003T06A023https://doi.org/10.1115/96-GT-132
View Articletitled, The Effects of Dissolved Oxygen Concentration, Fractional Oxygen Consumption, and Additives on JP-8 Thermal Stability
PDF
Topics: Oxygen , Thermal stability , Fuels , Flow (Dynamics) , Jet fuels , Design , Fuel systems , Heat exchangers
Numerical Prediction of the Dynamic Behaviour of Turbulent Diffusion Flames
Dieter Bohn, Gregor Deutsch, Uwe Krüger
GT 1996; V003T06A024https://doi.org/10.1115/96-GT-133
View Articletitled, Numerical Prediction of the Dynamic Behaviour of Turbulent Diffusion Flames
PDF
Topics: Flames , Turbulent diffusion , Combustion , Oscillations , Steady state , Transients (Dynamics) , Diffusion flames , Frequency response , Simulation , Stability
Development of a Dry Ultra Low NOx Double Swirler Staged Gas Turbine Combustor
Hiroshi Sato, Masaaki Mori
GT 1996; V003T06A025https://doi.org/10.1115/96-GT-134
View Articletitled, Development of a Dry Ultra Low NOx Double Swirler Staged Gas Turbine Combustor
PDF
Topics: Combustion chambers , Gas turbines , Nitrogen oxides , Engines , Combustion , Emissions , Nozzles , Pressure , Air flow , Cogeneration systems
Preliminary Gas Turbine Combustor Design Using a Network Approach
Peter J. Stuttaford, Philip A. Rubini
GT 1996; V003T06A026https://doi.org/10.1115/96-GT-135
View Articletitled, Preliminary Gas Turbine Combustor Design Using a Network Approach
PDF
Topics: Combustion chambers , Design , Gas turbines , Flow (Dynamics) , Heat , Air flow , Annulus , Combustion , Cooling , Equilibrium (Physics)
The Prediction of Laminar Flame Speeds for Weak Mixtures
D. Kretschmer, J. Odgers
GT 1996; V003T06A027https://doi.org/10.1115/96-GT-142
View Articletitled, The Prediction of Laminar Flame Speeds for Weak Mixtures
PDF
Topics: Flames , Temperature , Fuels , Oxygen , Pressure
Anchored CCD for Gas Turbine Combustor Design and Data Correlation
Allen M. Danis, David L. Burrus, Hukam C. Mongia
GT 1996; V003T06A028https://doi.org/10.1115/96-GT-143
View Articletitled, Anchored CCD for Gas Turbine Combustor Design and Data Correlation
PDF
Topics: Combustion chambers , Design , Gas turbines , Combustion , Modeling , Nitrogen oxides , Wall temperature , Boundary-value problems , Databases , Dynamics (Mechanics)
CFD Indications of Premix Flame Stability in a Gas Turbine Combustor
J. Allan
GT 1996; V003T06A029https://doi.org/10.1115/96-GT-182
View Articletitled, CFD Indications of Premix Flame Stability in a Gas Turbine Combustor
PDF
Topics: Combustion chambers , Computational fluid dynamics , Flames , Gas turbines , Stability , Flow (Dynamics) , Heating , Simulation
Jet Fuel Oxidation and Deposition
Colette C. Knight, James C. Carnahan, Kevin Janora, John F. Ackerman
GT 1996; V003T06A030https://doi.org/10.1115/96-GT-183
View Articletitled, Jet Fuel Oxidation and Deposition
PDF
Topics: Jet fuels , Oxidation , Fuels , Nitrogen , Sulfur , Air flow , Chemistry , Fourier transform infrared spectroscopy , Molecular weight , Nuclear magnetic resonance
Modelling Turbulent Combustion in a Non-Adiabatic CO/H2 Flame Using Reaction Progress Variables
Jim B. W. Kok, Jurgen J. J. Louis
GT 1996; V003T06A031https://doi.org/10.1115/96-GT-184
View Articletitled, Modelling Turbulent Combustion in a Non-Adiabatic CO/H<sub>2</sub> Flame Using Reaction Progress Variables
PDF
Topics: Combustion , Flames , Modeling , Turbulence , Heat losses , Enthalpy , Equilibrium (Physics) , Fuels , Scalars , Carbon dioxide
Non-Intrusive Thermometry in Liquid Kerosene Fuelled Combustor Sector Rigs Using Coherent Anti-Stokes Raman (CARS) and Comparison With CFD Temperature Predictions
J. D. Black, H. T. Brocklehurst, C. H. Priddin
GT 1996; V003T06A032https://doi.org/10.1115/96-GT-185
View Articletitled, Non-Intrusive Thermometry in Liquid Kerosene Fuelled Combustor Sector Rigs Using Coherent Anti-Stokes Raman (CARS) and Comparison With CFD Temperature Predictions
PDF
Topics: Automobiles , Combustion chambers , Computational fluid dynamics , Temperature , Temperature measurement , Combustion , Atmospheric pressure , Cavities , Flow (Dynamics) , Fuels
Stochastic Modelling of NOx and Smoke Production in Gas Turbine Combustors
I. M. Aksit, J. B. Moss
GT 1996; V003T06A033https://doi.org/10.1115/96-GT-186
View Articletitled, Stochastic Modelling of NO<sub>x</sub> and Smoke Production in Gas Turbine Combustors
PDF
Topics: Combustion chambers , Gas turbines , Modeling , Nitrogen oxides , Smoke , Computational fluid dynamics , Scalars , Density , Emissions , Simulation
Development of a Dual-Fuel Injection System for Lean Premixed Industrial Gas Turbines
Luke H. Cowell, Amjad Rajput, Douglas C. Rawlins
GT 1996; V003T06A034https://doi.org/10.1115/96-GT-195
View Articletitled, Development of a Dual-Fuel Injection System for Lean Premixed Industrial Gas Turbines
PDF
Topics: Fuels , Industrial gases , Turbines , Design , Nitrogen oxides , Ejectors , Engines , Testing , Combustion , Emissions
Evaluation of the Effectiveness of a Metal Deactivator and Other Additives in Reducing Insolubles in Aviation Fuels
E. Grant Jones, Walter J. Balster, Lori M. Balster
GT 1996; V003T06A035https://doi.org/10.1115/96-GT-204
View Articletitled, Evaluation of the Effectiveness of a Metal Deactivator and Other Additives in Reducing Insolubles in Aviation Fuels
PDF
Topics: Aviation , Fuels , Metals , Heat exchangers , Metal surfaces , Plasticizers , Stress , Aircraft , Engineering simulation , Jet fuels
Coupled Lagrangian Monte Carlo PDF–CFD Computation of Gas Turbine Combustor Flowfields With Finite–Rate Chemistry
Anil K. Tolpadi, Iris Z. Hu, Sanjay M. Correa, David L. Burrus
GT 1996; V003T06A036https://doi.org/10.1115/96-GT-205
View Articletitled, Coupled Lagrangian Monte Carlo PDF–CFD Computation of Gas Turbine Combustor Flowfields With Finite–Rate Chemistry
PDF
Topics: Chemistry , Combustion chambers , Computation , Computational fluid dynamics , Gas turbines , Scalars , Temperature , Turbulence , Aircraft engines , Emissions
Three Dimensional Analysis of Advanced Swirl Vane/Nozzle Assemblies
Gerald J. Micklow, Michael Benjamin
GT 1996; V003T06A037https://doi.org/10.1115/96-GT-226
View Articletitled, Three Dimensional Analysis of Advanced Swirl Vane/Nozzle Assemblies
PDF
Topics: Dimensional analysis , Nozzles , Combustion chambers , Flow (Dynamics) , Pressure , Fuels , Pressure gradient , Design , Emissions , Flow simulation
Effects of Steam Injection and Stochiometry on Cyclone Gasification of Wood Powder
Christian Fredriksson, Bengt Degerman, Björn Kjellström
GT 1996; V003T06A038https://doi.org/10.1115/96-GT-227
View Articletitled, Effects of Steam Injection and Stochiometry on Cyclone Gasification of Wood Powder
PDF
Topics: Fuel gasification , Steam , Wood products , Flow (Dynamics) , Equilibrium (Physics) , Fuels , Carbon dioxide , Heating , Methane , Temperature
Westinghouse Combustion Turbine Performance in Coal Gasification Combined Cycles
Richard A. Newby, Ronald L. Bannister, Frank Miao
GT 1996; V003T06A039https://doi.org/10.1115/96-GT-231
View Articletitled, Westinghouse Combustion Turbine Performance in Coal Gasification Combined Cycles
PDF
Topics: Coal , Combined cycles , Combustion , Fuel gasification , Turbines , Integrated gasification combined cycle power stations , Syngas , Cycles , Economics , Energy generation
High Pressure Test Results of a Catalytic Combustor for Gas Turbine
T. Fujii, Y. Ozawa, S. Kikumoto, M. Sato, Y. Yuasa, H. Inoue
GT 1996; V003T06A040https://doi.org/10.1115/96-GT-382
View Articletitled, High Pressure Test Results of a Catalytic Combustor for Gas Turbine
PDF
Topics: Combustion chambers , Gas turbines , High pressure (Physics) , Combustion , Catalysts , Nitrogen oxides , Emissions , High temperature , Design , Liquefied natural gas
Experimental Investigation of the Liquid Fuel Evaporation in a Premix Duct for Lean Premixed and Prevaporized Combustion
Michael Brandt, Kay O. Gugel, Christoph Hassa
GT 1996; V003T06A041https://doi.org/10.1115/96-GT-383
View Articletitled, Experimental Investigation of the Liquid Fuel Evaporation in a Premix Duct for Lean Premixed and Prevaporized Combustion
PDF
Topics: Combustion , Ducts , Evaporation , Fuels , Temperature , Flow (Dynamics) , Pressure
Fuel-Specification Considerations for Biomass Pyrolysis Liquids to be Used in Stationary Gas Turbines
Clifford A. Moses, Henry L. Bernstein
GT 1996; V003T06A042https://doi.org/10.1115/96-GT-406
View Articletitled, Fuel-Specification Considerations for Biomass Pyrolysis Liquids to be Used in Stationary Gas Turbines
PDF
Topics: Biomass , Fuels , Gas turbines , Pyrolysis , Chemical properties , Coal , Design , Energy generation , Engine design , Shales
Numerical Study of Bicomponent Droplet Vaporization in a High Pressure Environment
J. Stengele, H.-J. Bauer, S. Wittig
GT 1996; V003T06A043https://doi.org/10.1115/96-GT-442
View Articletitled, Numerical Study of Bicomponent Droplet Vaporization in a High Pressure Environment
PDF
Topics: Drops , High pressure (Physics) , Evaporation , Temperature , Pressure , Vapors , Fuels , High temperature , Combustion , Combustion chambers
Optimum Mixing for a Two-Sided Injection From Opposing Rows of Staggered Jets Into a Confined Crossflow
Malte M. Blomeyer, Bernd H. Krautkremer, Dietmar K. Hennecke
GT 1996; V003T06A044https://doi.org/10.1115/96-GT-453
View Articletitled, Optimum Mixing for a Two-Sided Injection From Opposing Rows of Staggered Jets Into a Confined Crossflow
PDF
Topics: Jets , Combustion chambers , Ducts , Momentum , Combustion , Databases , Emissions , Flow (Dynamics) , Gas turbines , Nitrogen oxides
Flow Interactions in the Combustor-Diffuser System of Industrial Gas Turbines
Ajay K. Agrawal, Jayanta S. Kapat, Tah-teh Yang
GT 1996; V003T06A045https://doi.org/10.1115/96-GT-454
View Articletitled, Flow Interactions in the Combustor-Diffuser System of Industrial Gas Turbines
PDF
Topics: Combustion chambers , Diffusers , Flow (Dynamics) , Industrial gases , Turbines , Air flow , Aircraft engines , Computation , Computational fluid dynamics , Design
Experimental Investigation of Hybrid Airblast Atomizer
J. S. Chin, N. K. Rizk, M. K. Razdan
GT 1996; V003T06A046https://doi.org/10.1115/96-GT-464
View Articletitled, Experimental Investigation of Hybrid Airblast Atomizer
PDF
Topics: Design , Engines , Flow (Dynamics) , Fuels , Geometry , High pressure (Physics) , Nozzles , Pressure , Pressure drop , Sprays
Engine Testing of a Natural Gas-Fired, Low-NOx, Variable Geometry Gas Turbine Combustor for a Small Gas Turbine
Shigeru Hayashi, Hideshi Yamada, Kazuo Shimodaira
GT 1996; V003T06A047https://doi.org/10.1115/96-GT-465
View Articletitled, Engine Testing of a Natural Gas-Fired, Low-NOx, Variable Geometry Gas Turbine Combustor for a Small Gas Turbine
PDF
Topics: Combustion chambers , Engines , Gas turbines , Geometry , Nitrogen oxides , Testing , Emissions , Combustion , Fuels , Temperature
Prediction of the Three-Dimensional Reacting Two-Phase Flow Within a Jet-Stabilized Combustor
M. Kurreck, M. Willmann, S. Wittig
GT 1996; V003T06A048https://doi.org/10.1115/96-GT-468
View Articletitled, Prediction of the Three-Dimensional Reacting Two-Phase Flow Within a Jet-Stabilized Combustor
PDF
Topics: Combustion chambers , Two-phase flow , Drops , Numerical analysis , Relaxation (Physics)
Mixing of Multiple Jets With a Confined Subsonic Crossflow in a Cylindrical Duct
James D. Holdeman, David S. Liscinsky, G. Scott Samuelsen, Victor L. Oechsle, Clifford E. Smith
GT 1996; V003T06A049https://doi.org/10.1115/96-GT-482
View Articletitled, Mixing of Multiple Jets With a Confined Subsonic Crossflow in a Cylindrical Duct
PDF
Topics: Ducts , Jets , Flow (Dynamics) , Momentum , Orifices , Combustion chambers , Design , Emissions , Gas turbines , Geometry
Development of a Catalytic Combustor for a Heavy-Duty Utility Gas Turbine
Ralph A. Dalla Betta, James C. Schlatter, Sarento G. Nickolas, Martin B. Cutrone, Kenneth W. Beebe, Yutaka Furuse, Toshiaki Tsuchiya
GT 1996; V003T06A050https://doi.org/10.1115/96-GT-485
View Articletitled, Development of a Catalytic Combustor for a Heavy-Duty Utility Gas Turbine
PDF
Topics: Combustion chambers , Gas turbines , Emissions , Nitrogen oxides , Combustion systems , Design , Combustion , Cycles , Exhaust systems , Fuels
Cold Flow Computations for the Diffuser-Combustor Section of an Industrial Gas Turbine
Dadong Zhou, Ting Wang, William R. Ryan
GT 1996; V003T06A051https://doi.org/10.1115/96-GT-513
View Articletitled, Cold Flow Computations for the Diffuser-Combustor Section of an Industrial Gas Turbine
PDF
Topics: Combustion chambers , Computation , Diffusers , Flow (Dynamics) , Industrial gases , Turbines , Computational fluid dynamics , Pressure , Design , Finite element analysis
Cold Flow Experiments in a Sub-Scale Model of the Diffuser-Combustor Section of an Industrial Gas Turbine
J. S. Kapat, T. Wang, W. R. Ryan, I. S. Diakunchak, R. L. Bannister
GT 1996; V003T06A052https://doi.org/10.1115/96-GT-518
View Articletitled, Cold Flow Experiments in a Sub-Scale Model of the Diffuser-Combustor Section of an Industrial Gas Turbine
PDF
Topics: Combustion chambers , Diffusers , Flow (Dynamics) , Industrial gases , Turbines , Pressure , Air flow , Flow measurement , Geometry , Machinery
Reduction of NOx Formation by Water Sprays in Strained Two-Stage Flames
S. C. Li, N. Ilincic, F. A. Williams
GT 1996; V003T06A053https://doi.org/10.1115/96-GT-545
View Articletitled, Reduction of NO<sub>x</sub> Formation by Water Sprays in Strained Two-Stage Flames
PDF
Topics: Flames , Nitrogen oxides , Sprays , Water , Combustion , Diffusion flames , Fuels , Temperature , Combustion chambers , Databases

Oil and Gas Applications

The Transient Torsional Vibration Behaviour of a Turbine-Generator System Under Short Circuit Excitation
Dennis S. H. Chan
GT 1996; V003T07A001https://doi.org/10.1115/96-GT-025
View Articletitled, The Transient Torsional Vibration Behaviour of a Turbine-Generator System Under Short Circuit Excitation
PDF
Topics: Circuits , Excitation , Transients (Dynamics) , Turbogenerators , Vibration , Generators , Couplings , Torque , Acceptance criteria , Combined cycle power stations
Origin of Split Resonance and Backward Whirl in a Simple Rotor
Knox T. Millsaps, Curtis E. Vejvoda
GT 1996; V003T07A002https://doi.org/10.1115/96-GT-080
View Articletitled, Origin of Split Resonance and Backward Whirl in a Simple Rotor
PDF
Topics: Resonance , Rotors , Whirls , Bearings , Damping , Stiffness , Computers , Degrees of freedom , Disks , Gravity (Force)
Effect of Check Valve Dynamics on the Sizing of Recycle Systems for Centrifugal Compressors
K. K. Botros, D. J. Richards, O. Roorda
GT 1996; V003T07A003https://doi.org/10.1115/96-GT-094
View Articletitled, Effect of Check Valve Dynamics on the Sizing of Recycle Systems for Centrifugal Compressors
PDF
Topics: Compressors , Dynamics (Mechanics) , Valves , Capacitance , Surges , Flow (Dynamics) , Pipes , Scram , Simulation , System dynamics
A New Gas Compressor Product Development
Ronald P. Porter
GT 1996; V003T07A004https://doi.org/10.1115/96-GT-095
View Articletitled, A New Gas Compressor Product Development
PDF
Topics: Gas compressors , Product development , Design , Compressors , Manufacturing , Inlet guide vanes
Turbomachinery Diagnostic System: SNAM Cortemaggiore Compressor Station as a Typical Application
Paolo Pulicani, Giuliano Zampieri
GT 1996; V003T07A005https://doi.org/10.1115/96-GT-096
View Articletitled, Turbomachinery Diagnostic System: SNAM Cortemaggiore Compressor Station as a Typical Application
PDF
Topics: Compressors , Turbomachinery , Computer software , Maintenance , Compression , Computers , Engineers , Expert systems , Hardware , Machinery
Design and Test of a New Axial Compressor for the Nuovo Pignone Heavy Duty Gas Turbines
Erio Benvenuti
GT 1996; V003T07A006https://doi.org/10.1115/96-GT-145
View Articletitled, Design and Test of a New Axial Compressor for the Nuovo Pignone Heavy Duty Gas Turbines
PDF
Topics: Compressors , Design , Gas turbines , Blades , Pressure , Stators , Chords (Trusses) , Engineering prototypes , Flow (Dynamics) , Geometry
Power Turbine Remaining Life Analysis: Experience and Practical Considerations
Robert J. Klova, Hermes Galatis
GT 1996; V003T07A007https://doi.org/10.1115/96-GT-211
View Articletitled, Power Turbine Remaining Life Analysis: Experience and Practical Considerations
PDF
Topics: Remaining life assessment , Turbines , Maintenance , Structural analysis , Corrosion , Creep , Damage , Low cycle fatigue , Turbine components , Uncertainty
Superduplex Stainless Steel Use in Manufacturing Highly Sour Gas Centrifugal Compressors
François Millet, Patrick Friez, Angelo Franzi, Bernard Bonnefois, Jean-Marc Lardon
GT 1996; V003T07A008https://doi.org/10.1115/96-GT-272
View Articletitled, Superduplex Stainless Steel Use in Manufacturing Highly Sour Gas Centrifugal Compressors
PDF
Topics: Compressors , Manufacturing , Stainless steel , Corrosion , Oil fields , Carbon dioxide , Corrosion resistant materials , Gases , Heat , Hydrogen
Optimum Operation and Maintenance of Gas Turbines Offshore
Lars E. Bakken, Roald Skorping
GT 1996; V003T07A009https://doi.org/10.1115/96-GT-273
View Articletitled, Optimum Operation and Maintenance of Gas Turbines Offshore
PDF
Topics: Gas turbines , Maintenance , Ocean engineering , Emissions , Thermal efficiency , Carbon dioxide , Condition monitoring , Energy consumption , Machinery , Optimization
SPE “Mashproekt” Gas Turbine Engines for Gas Pumping Sets
Victor I. Romanov, Vladimir V. Lupandin, Anatoliy V. Kovalenko, Anatoliy I. Shelestyuk
GT 1996; V003T07A010https://doi.org/10.1115/96-GT-275
View Articletitled, SPE “Mashproekt” Gas Turbine Engines for Gas Pumping Sets
PDF
Topics: Gas turbines , Design , Engines , Compressors , Coolers , Gas compressors , Marine gas turbines , Pipelines , Testing
Refurbishment of a Solar Centaur Compressor Set to Meet European Environmental Regulations
Herbert Rohrbacher, John Barron
GT 1996; V003T07A011https://doi.org/10.1115/96-GT-276
View Articletitled, Refurbishment of a Solar Centaur Compressor Set to Meet European Environmental Regulations
PDF
Topics: Compressors , Regulations , Solar energy , Compression , Cycles , Emissions , Engines , Nitrogen oxides , Reliability
The Offshore Application of a Dual-Mode Injection Centrifugal Compressor and Improvements to Rotating Stall
Arne Lynghjem, Ove Svendsen, Harald Underbakke
GT 1996; V003T07A012https://doi.org/10.1115/96-GT-322
View Articletitled, The Offshore Application of a Dual-Mode Injection Centrifugal Compressor and Improvements to Rotating Stall
PDF
Topics: Compressors , Ocean engineering , Impellers , Offshore platforms , Compression , Design , Geometry , Nuclear decommissioning , Safety
Magnetic Bearing Improvement Program at NOVA
Paul S. Alves, Barry M. Alavi
GT 1996; V003T07A013https://doi.org/10.1115/96-GT-323
View Articletitled, Magnetic Bearing Improvement Program at NOVA
PDF
Topics: Magnetic bearings , Pipelines , Quality control , Compressors , Bearings , Control systems , Design , Equipment performance , Failure , Reliability
The Design and Evaluation of a 14 Stage, 16:1 Pressure Ratio Compressor for an Industrial Gas Turbine
Mohammad R. Saadatmand
GT 1996; V003T07A014https://doi.org/10.1115/96-GT-324
View Articletitled, The Design and Evaluation of a 14 Stage, 16:1 Pressure Ratio Compressor for an Industrial Gas Turbine
PDF
Topics: Compressors , Design , Industrial gases , Pressure , Turbines , Blades , Flow (Dynamics) , Rotors , Boundary layers , Computational fluid dynamics
Experimental Analysis of a Small Prototype of Peripheral Turbine for Decompression of Natural Gas
Carlo M. Bartolini, Danilo Salvi
GT 1996; V003T07A015https://doi.org/10.1115/96-GT-515
View Articletitled, Experimental Analysis of a Small Prototype of Peripheral Turbine for Decompression of Natural Gas
PDF
Topics: Engineering prototypes , Experimental analysis , Natural gas , Turbines , Flow (Dynamics) , High pressure (Physics) , Machinery , Dimensions , Energy resources , Fluids

Cycle Innovations

The Effect of High Temperature Feedwater on the Performance of an Evaporative Cooler Installed in a Gas Turbine Combustion Air Inlet System
R. S. Johnson, Sr.
GT 1996; V003T08A001https://doi.org/10.1115/96-GT-229
View Articletitled, The Effect of High Temperature Feedwater on the Performance of an Evaporative Cooler Installed in a Gas Turbine Combustion Air Inlet System
PDF
Topics: Combustion , Evaporative cooling , Feedwater , Gas turbines , High temperature , Temperature
Biomass-Fired Atmospheric Gas Turbine Plant
M. Fesharaki, S. Moser, H. Halozan, H. Jericha
GT 1996; V003T08A002https://doi.org/10.1115/96-GT-246
View Articletitled, Biomass-Fired Atmospheric Gas Turbine Plant
PDF
Topics: Biomass , Gas turbines , Atmospheric pressure , Combustion chambers , Pressure , Temperature , Boilers , Combustion , Cycles , Exhaust systems
Hydrogen-Fueled Combustion Turbine Cycles
Ronald L. Bannister, David J. Huber, Richard A. Newby, John A. Paffenbarger
GT 1996; V003T08A003https://doi.org/10.1115/96-GT-247
View Articletitled, Hydrogen-Fueled Combustion Turbine Cycles
PDF
Topics: Combustion , Cycles , Hydrogen fuels , Turbines , Conceptual design , Power stations , Economics , Fluids , Heating , Hydrogen
Thermal Efficiency Projections of a Simple-Cycle Gas Turbine in Biogas Power Generation
David E. Yomogida, Ngo D. Thinh, Valentino M. Tiangco, Ying Lee
GT 1996; V003T08A004https://doi.org/10.1115/96-GT-248
View Articletitled, Thermal Efficiency Projections of a Simple-Cycle Gas Turbine in Biogas Power Generation
PDF
Topics: Biogas , Cycles , Energy generation , Gas turbines , Thermal efficiency , Computers , Combustion , Design , Sensitivity analysis , Solar energy
Evaluation of Thermochemical Recuperation and Partial Oxidation Concepts for Natural Gas-Fired Advanced Turbine Systems
Joseph K. Rabovitser, Mark J. Khinkis, Ronald L. Bannister, Frank Q. Miao
GT 1996; V003T08A005https://doi.org/10.1115/96-GT-290
View Articletitled, Evaluation of Thermochemical Recuperation and Partial Oxidation Concepts for Natural Gas-Fired Advanced Turbine Systems
PDF
Topics: Oxidation , Turbines , Energy / power systems , Gaseous fuels research , Teams , Thermodynamic cycles
Semi-Closed Gas Turbine/Combined Cycle With Water Recovery and Extensive Exhaust Gas Recirculation
Bruno Facchini, Daniele Fiaschi, Giampaolo Manfrida
GT 1996; V003T08A006https://doi.org/10.1115/96-GT-317
View Articletitled, Semi-Closed Gas Turbine/Combined Cycle With Water Recovery and Extensive Exhaust Gas Recirculation
PDF
Topics: Combined cycles , Exhaust gas recirculation , Gas turbines , Water reuse , Exhaust systems , Compressors , Cycles , Carbon dioxide , Combustion , Condensation
An Assessment of the Performance of Closed Cycles With and Without Heat Rejection at Cryogenic Temperatures
A. Agazzani, A. F. Massardo, T. Korakianitis
GT 1996; V003T08A007https://doi.org/10.1115/96-GT-344
View Articletitled, An Assessment of the Performance of Closed Cycles With and Without Heat Rejection at Cryogenic Temperatures
PDF
Topics: Cycles , Heat , Temperature , Liquefied natural gas , Power stations , Ceramics , Closed-cycle gas turbines , Heat exchangers , High temperature , Hydrogen
A Semiclosed Cycle Gas Turbine With Carbon Dioxide-Argon as Working Fluid
Inaki Ulizar, Pericles Pilidis
GT 1996; V003T08A008https://doi.org/10.1115/96-GT-345
View Articletitled, A Semiclosed Cycle Gas Turbine With Carbon Dioxide-Argon as Working Fluid
PDF
Topics: Carbon , Cycles , Fluids , Gas turbines , Design , Machinery , Carbon dioxide , Closed-cycle gas turbines , Coal , Fuels
REVAP® Cycle: A New Evaporative Cycle Without Saturation Tower
J. De Ruyck, S. Bram, G. Allard
GT 1996; V003T08A009https://doi.org/10.1115/96-GT-361
View Articletitled, REVAP<sup>®</sup> Cycle: A New Evaporative Cycle Without Saturation Tower
PDF
Topics: Cycles , Composite materials , Gas turbines , Heat , Two-phase flow
Sizing of a Gas Turbine for Repowering of Cogeneration Power Plant Ljubljana by Mathematical Optimisation
Mihael Gabriel Tomšič, Olgica Perović
GT 1996; V003T08A010https://doi.org/10.1115/96-GT-423
View Articletitled, Sizing of a Gas Turbine for Repowering of Cogeneration Power Plant Ljubljana by Mathematical Optimisation
PDF
Topics: Cogeneration plants , Gas turbines , Optimization , Heat , Steam , Boilers , Stress , Central heating , Energy generation , Generators
The Indirect Cycle: A Logical and Practical Nuclear Gas Turbine Power Plant Concept
Colin F. McDonald
GT 1996; V003T08A011https://doi.org/10.1115/96-GT-431
View Articletitled, The Indirect Cycle: A Logical and Practical Nuclear Gas Turbine Power Plant Concept
PDF
Topics: Cycles , Gas turbines , Power stations , Heat , Helium , High temperature , Power conversion systems , Brayton cycle , Electric power generation , Energy generation
Solid Oxide Fuel Cell Combined Cycles
Frank P. Bevc, Wayne L. Lundberg, Dennis M. Bachovchin
GT 1996; V003T08A012https://doi.org/10.1115/96-GT-447
View Articletitled, Solid Oxide Fuel Cell Combined Cycles
PDF
Topics: Combined cycles , Solid oxide fuel cells , Combined cycle power stations , Combustion , Conceptual design , Cycles , Design , Emissions , Natural gas , Power stations
A Low-Leakage Discontinuously-Rotating Regenerator Designed for a Motor-Vehicle Gas Turbine
Andreas Carl Pfahnl, David Gordon Wilson
GT 1996; V003T08A013https://doi.org/10.1115/96-GT-452
View Articletitled, A Low-Leakage Discontinuously-Rotating Regenerator Designed for a Motor-Vehicle Gas Turbine
PDF
Topics: Gas turbines , Leakage , Motor vehicles , Automotive gas turbines , Compressed air , Cycles , Design , Disks , Flow (Dynamics) , Sealing (Process)
The Key Role of Heat Exchangers in Closed Brayton Cycle Gas Turbine Power Plants
Colin F. McDonald
GT 1996; V003T08A014https://doi.org/10.1115/96-GT-461
View Articletitled, The Key Role of Heat Exchangers in Closed Brayton Cycle Gas Turbine Power Plants
PDF
Topics: Brayton cycle , Gas turbines , Heat exchangers , Power stations , Cycles , Heat , Energy generation , Fluidized beds
A Tool for Thermoeconomic Analysis and Optimization of Gas, Steam and Combined Plants
A. Agazzani, A. F. Massardo
GT 1996; V003T08A015https://doi.org/10.1115/96-GT-479
View Articletitled, A Tool for Thermoeconomic Analysis and Optimization of Gas, Steam and Combined Plants
PDF
Topics: Optimization , Steam , Thermoeconomics , Combined cycles , Design , Economics , Exergy , Flow (Dynamics) , Fuels , Functional analysis
All Years

ASME Journals

ASME Conference Proceedings

ASME eBooks

Resources

Opportunities

  • Crossref Logo
  • Crossref Open Funder Registry Logo
  • Crossref Open Cited-By Logo
  • Crossref Crossmark Logo
  • Crossref Similarity Check Logo
  • Chorus Logo
  • Counter Logo
  • Cope Logo
  • STM Logo
Copyright © 2025 The American Society of Mechanical Engineers
Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal
This site uses cookies. By continuing to use our website, you are agreeing to our privacy policy.
Accept