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

Proceedings Papers

Proceedings Volume Cover
ASME 2011 Turbo Expo: Turbine Technical Conference and Exposition
June 6–10, 2011
Vancouver, British Columbia, Canada
Conference Sponsors:
  • International Gas Turbine Institute
ISBN:
978-0-7918-5463-1
Volume 3: Controls, Diagnostics and Instrumentation; Education; Electric Power; Microturbines and Small Turbomachinery; Solar Brayton and Rankine Cycle

Controls, Diagnostics and Instrumentation

Nonlinear Model Based Diagnostic of Gas Turbine Faults: A Case Study
Yongwen Liu, Ming Su
GT 2011; 1-8https://doi.org/10.1115/GT2011-45030
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Dynamic models , Monitoring systems , Filters , Vibration , Combined cycles , Damage , Design , Errors , Flow (Dynamics)
Air Flow Modulation for Refined Control of the Combustion Dynamics Using a Novel Actuator
Fabrice Giuliani, Andreas Lang, Klaus Johannes Gradl, Peter Siebenhofer, Johannes Fritzer
GT 2011; 9-17https://doi.org/10.1115/GT2011-45071
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Actuators , Air flow , Combustion , Dynamics (Mechanics) , Pressure , Design , Flow (Dynamics) , Wheels , Combustion chambers , Construction
Passive Absorption/Emission Spectroscopy for Gas Temperature Measurements in Gas Turbine Engines
Hejie Li, Guanghua Wang, Nirm Nirmalan, Samhita Dasgupta, Edward R. Furlong
GT 2011; 19-28https://doi.org/10.1115/GT2011-45152
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Absorption , Emission spectroscopy , Gas turbines , Temperature measurement , Temperature , Wavelength , Signals , Emissions , Radiation (Physics) , Carbon dioxide
Design and Optimization of a High Temperature Water Cooled Probe for Gas Analysis Measurement on K11 Combustion Test Rig
Vincent Plana, Jean Se´bastien Vauthier, Cyril Casteloot
GT 2011; 29-38https://doi.org/10.1115/GT2011-45177
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combustion , Design , High temperature , Optimization , Probes , Water , Combustion chambers , Testing , Air-breathing engines , Aircraft engines
Diagnostics of Highly Degraded Industrial Gas Turbines Using Bayesian Networks
Brian K. Kestner, Young K. Lee, Gautham Voleti, Dimitri N. Mavris, Viren Kumar, TsungPo Lin
GT 2011; 39-49https://doi.org/10.1115/GT2011-45249
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Industrial gases , Turbines , Sensors , Errors , Gas turbines , Calibration , Network models
Measurement of a Benchmarking Jet in Crossflow Configuration Under Highly Turbulent Conditions
Camilo Ca´rdenas, Julia Sedlmaier, Nikolaos Zarzalis, Richard J. Valdes, Werner Krebs
GT 2011; 51-60https://doi.org/10.1115/GT2011-45262
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Turbulence , Flow (Dynamics) , Flux (Metallurgy) , Stress , Vortices , Chemical industry , Combustion , Computer simulation , Fluorescence , Gas turbines
Spray and Flame Structure of a Generic Injector at Aeroengine Conditions
Ulrich Meier, Johannes Heinze, Stefan Freitag, Christoph Hassa
GT 2011; 61-72https://doi.org/10.1115/GT2011-45282
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Ejectors , Flames , Sprays , Temperature , Computational fluid dynamics , Fuels , Combustion , Combustion chambers , Density , Drops
Distributed Network System for Real-Time Model Based Control of Industrial Gas Turbines
V. Panov
GT 2011; 73-81https://doi.org/10.1115/GT2011-45298
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Industrial gases , Turbines , Control systems , Engines , Hardware , Gas turbines , Engineering simulation , Simulation , Life cycle costing , Maintainability
High Frequency Pressure Measurements With an Uncooled Fast Insertion Probe at Turbine Exit in a Turbojet Engine
R. J. Lubbock, M. L. G. Oldfield
GT 2011; 83-94https://doi.org/10.1115/GT2011-45318
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Pressure measurement , Probes , Turbines , Turbojets , Flow (Dynamics) , Gas turbines , Pressure , Turbulence , Flow measurement
Novel Dynamic Rotor and Blade Deformation and Vibration Monitoring Technique
Thorsten Pfister, Philipp Gu¨nther, Florian Dreier, Ju¨rgen Czarske
GT 2011; 95-104https://doi.org/10.1115/GT2011-45346
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Blades , Deformation , Rotors , Vibration , Sensors , Machinery , Turbochargers , Calibration , Clearances (Engineering) , Compressors
An Analytical Approach to Gas Turbine Engine Model Linearization
Gi-Yun Chung, Manuj Dhingra, J. V. R. Prasad, Richard Meisner, Steven Sirica
GT 2011; 105-115https://doi.org/10.1115/GT2011-45371
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Algorithms , Bifurcation , Engines , Flow (Dynamics) , Gas turbines , Turbofans , Weight (Mass)
A High Temperature High Bandwidth Fast Response Total Pressure Probe for Measurements in a Multistage Axial Compressor
Mehmet Mersinligil, Jean-Franc¸ois Brouckaert, Nicolas Courtiade, Xavier Ottavy
GT 2011; 117-131https://doi.org/10.1115/GT2011-45558
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , High temperature , Pressure , Probes , Sensors , Temperature , Blades , Flow (Dynamics) , Turbomachinery , Calibration
A Gas Turbine Engine Model of Transient Operation Across the Flight Envelope
Reza Rezvani, Metin Ozcan, Brian Kestner, Jimmy Tai, Dimitri N. Mavris, Richard Meisner, Steven Sirica
GT 2011; 133-140https://doi.org/10.1115/GT2011-45565
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Flight , Gas turbines , Transients (Dynamics) , Artificial neural networks , Engines , Experimental design , Feedforward control , Turbofans
Robust Gas Turbine Speed Control Using QFT
Zoleikha Abdollahi Biron, Ali Khaki Sedigh, Roghiyeh Abdollahi Biron
GT 2011; 141-147https://doi.org/10.1115/GT2011-45605
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Quantum field theory , Control equipment , Design , Feedback , Frequency-domain analysis , Matlab , Robust control , Uncertainty
Gas Path Analysis on KLM In-Flight Engine Data
Michel L. Verbist, Wilfried P. J. Visser, Jos P. van Buijtenen, Rob Duivis
GT 2011; 149-157https://doi.org/10.1115/GT2011-45625
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Flight , Wings , Gas turbines , Maintenance , Sensors , Collaboration , Measurement uncertainty , Noise (Sound) , Safety
Power Reserve Control for Gas Turbines in Combined Cycle Applications
Eric A. Mu¨ller, Andrew Wihler
GT 2011; 159-168https://doi.org/10.1115/GT2011-45626
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combined cycle gas turbines , Combined cycle power stations , Combined cycles , Control equipment , Energy generation , Frequency response , Gas turbines , Power stations , Stress
Engine Parameter Estimation in Test Cells Using Hybrid Physics/Empirical Models
Jonathan A. DeCastro, Dean K. Frederick, Liang Tang
GT 2011; 169-176https://doi.org/10.1115/GT2011-45633
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Parameter estimation , Physics , Thrust , Dynamics (Mechanics) , Kalman filters , Sensors , Artificial neural networks , Construction , Errors
Advanced Gas Turbine Diagnostics Using Pattern Recognition
Shintaro Kumano, Naotaka Mikami, Kuniaki Aoyama
GT 2011; 179-187https://doi.org/10.1115/GT2011-45670
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Pattern recognition , Artificial intelligence , Energy generation , Maintenance , Reliability , Clocks , Engineers , Inspection , Instrumentation
Amplified Pressure Transducers Using SOI Sensors and SOI Electronics, Suitable for High Temperature Operation (250°C)
Alex A. Ned, Wolf S. Landmann, Andrew Bemis, David S. Kerr
GT 2011; 189-197https://doi.org/10.1115/GT2011-45704
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Electronics , High temperature , Pressure transducers , Sensors , Silicon-on-insulator , Control systems , Integrated circuits , Transducers , Actuators , Automobiles
Constrained Sparse Estimation for Improved Fault Isolation
S. Borguet, O. Le´onard
GT 2011; 199-208https://doi.org/10.1115/GT2011-45711
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , High pressure (Physics) , Jet engines , Quadratic programming , Stators , Turbofans
Turbo-Machinery Monitoring Measures for Propulsion Safety and Affordable Readiness
Richard C. Millar
GT 2011; 209-214https://doi.org/10.1115/GT2011-45741
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Propulsion , Safety , Turbomachinery , Blades , Hazards , Life cycle costing , Aircraft propulsion , Corrosion , Damage , Design
Enhanced Static-Dynamic Pressure Transducer for the Detection of Acoustic Level Flow Instabilities in Gas Turbine Engines
Adam M. Hurst, Scott Goodman, Boaz Kochman, Alex Ned
GT 2011; 215-220https://doi.org/10.1115/GT2011-45750
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Acoustics , Flow instability , Gas turbines , Pressure transducers , Pressure , Transducers , Engines , High temperature , Sensors , Acoustic filters
Gas Turbine and Driven Machinery Management and Diagnostics
Mel Maalouf, Thomas Eldridge
GT 2011; 221-241https://doi.org/10.1115/GT2011-45759
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Machinery , Emissions , Instrumentation , Reliability
Nonlinear Model-Based Predictor: Its Application to the Closed Loop Control of the Alstom GT11N2 Gas Turbine
Xiao-Yi Zhang
GT 2011; 243-250https://doi.org/10.1115/GT2011-45789
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Signals , Engines , Stability , Transients (Dynamics) , Combustion technologies , Control algorithms , Delays , Emergencies , Emissions
A Hybrid EKF-Fuzzy Approach to Fault Detection and Isolation of Industrial Gas Turbines
Amin Salar, Ali Khaki Sedigh, SeyedMehrdad Hosseini, Hiwa Khaledi
GT 2011; 251-260https://doi.org/10.1115/GT2011-45878
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Flaw detection , Industrial gases , Turbines , Compressors , Fault diagnosis , Simulation , Fault location (Engineering) , Filtration , Fuzzy logic , Kalman filters
Application of a Miniature Telemetry System in a Small Gas Turbine Engine
Stephen A. Long, Patrick A. Reiger, Michael W. Elliott, Stephen L. Edney, Frank Knabe, Dieter Bernhard
GT 2011; 261-270https://doi.org/10.1115/GT2011-45910
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Telemetry , Engines , Cooling systems , Design , Electronics , Rotors , Temperature , Air flow , Cavities
Model-Based Data Reconciliation and Bias Detection for Heavy-Duty Industrial Gas Turbines Performance Diagnosis
TsungPo Lin, Eduardo Mendoza, Brian K. Kestner
GT 2011; 271-280https://doi.org/10.1115/GT2011-45943
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Industrial gases , Turbines , Uncertainty , Calibration , Gas turbines , Heat , Algorithms , Computation , Contamination , Filtration
New Alstom Monitoring Tools Leveraging Artificial Neural Network Technologies
Thomas Palme´, Peter Breuhaus, Mohsen Assadi, Albert Klein, Minkyo Kim
GT 2011; 281-292https://doi.org/10.1115/GT2011-45990
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Artificial neural networks , Gas turbines
Early Warning of Gas Turbine Failure by Nonlinear Feature Extraction Using an Auto-Associative Neural Network Approach
Thomas Palme´, Peter Breuhaus, Mohsen Assadi, Albert Klein, Minkyo Kim
GT 2011; 293-304https://doi.org/10.1115/GT2011-45991
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Artificial neural networks , Failure , Feature extraction , Gas turbines , Principal component analysis
A Data Analytics Approach to Failure Precursor Detection of Gas Turbine
Ousmane Diallo, Dimitri Mavris
GT 2011; 305-315https://doi.org/10.1115/GT2011-46019
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Failure , Gas turbines , Sensors , Signals , Vibration , Compressors , Condition monitoring , Engineering standards , Principal component analysis , Resolution (Optics)
A Comparative Analysis of Turbine Rotor Inlet Temperature Models
Cristhian Maravilla Herrera, Sergiy Yepifanov, Igor Loboda
GT 2011; 317-327https://doi.org/10.1115/GT2011-46161
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Rotors , Temperature , Turbines , Algorithms , Blades , Gas turbines , Polynomials , Boundary-value problems , Disks , Engines
Multi-Parameter Optical Sensing for Harsh Environment Static and Dynamic Pressure Sensing Corrected for Large Temperature Swings
A. P. R. Harpin
GT 2011; 329-335https://doi.org/10.1115/GT2011-46201
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Pressure , Temperature , Sensors , Signals , Cavities , Errors , Gas turbines , Geometry , Noise (Sound) , Resolution (Optics)
Correlation Measure-Based Stall Margin Estimation for a Single-Stage Axial Compressor
Yuan Liu, Manuj Dhingra, J. V. R. Prasad
GT 2011; 337-348https://doi.org/10.1115/GT2011-46326
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , Design , Pressure , Rotors , Stability , Steady state , Surges
Sub-Miniature Five-Hole Probe Calibration Using a Time Efficient Pitch and Yaw Mechanism and Accuracy Improvements
Jason Town, Cengiz Camci
GT 2011; 349-359https://doi.org/10.1115/GT2011-46391
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Calibration , Probes , Yaw , Transducers , Computers , Control equipment , Computer technology , Data acquisition , Errors , Flow measurement
Application of an Optimal Tuner Selection Approach for On-Board Self-Tuning Engine Models
Donald L. Simon, Jeffrey B. Armstrong, Sanjay Garg
GT 2011; 361-373https://doi.org/10.1115/GT2011-46408
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Errors , Kalman filters , Aircraft engines , Design , Design methodology , Dimensions , Dynamic response , Engineering simulation , Filters
Gas Path Analysis and Gas Turbine Re-Mapping
Giovanni Cerri, Leila Chennaoui, Ambra Giovannelli, Coriolano Salvini
GT 2011; 375-383https://doi.org/10.1115/GT2011-46424
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Artificial neural networks , Gas turbines
Integration of Unknown Input Observers and Classification for Turbofan Engine Diagnosis
Daoliang Tan, Ai He, Xiangxing Kong, Xi Wang
GT 2011; 385-397https://doi.org/10.1115/GT2011-46429
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Turbofans , Support vector machines , Actuators , Sensors , Aircraft engines , Algorithms , Design , Fault diagnosis , Pattern recognition
An Acoustic Methodology to Measure Heat Release Rate Fluctuations From Unsteady Laminar Flames
J. Li, F. Richecoeur, T. Schuller, Y. Huang
GT 2011; 399-408https://doi.org/10.1115/GT2011-46431
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Acoustics , Flames , Fluctuations (Physics) , Heat , Signals , Buoyancy , Flow (Dynamics) , Trains , Transfer functions , Ultrasonic waves
Effects due to the Temperature Measurement Section on the Performance Estimation of a Centrifugal Compressor Stage
Alessandro Bianchini, Giovanni Ferrara, Lorenzo Ferrari, Valeria Ballarini, Lorenzo Bianchi, Libero Tapinassi, Lorenzo Toni
GT 2011; 409-418https://doi.org/10.1115/GT2011-46509
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , Temperature measurement , Impellers , Heat , Temperature , Computer simulation , Flow (Dynamics) , Inertia (Mechanics) , Machinery , Temperature sensors
Blade Tip Measurement Advanced Visualization Using a Three Dimensional Representation
Michae¨l A. Hafner, Thomas A. Holst, Scott A. Billington
GT 2011; 419-425https://doi.org/10.1115/GT2011-46523
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Blades , Visualization , Clearances (Engineering) , Sensors , Machinery , Shapes , Engines , Fittings , Graphical user interfaces , Microwaves
Prognostics and Health Management of Aircraft Engine EMA Systems
Matthew J. Watson, Matthew J. Smith, Jared Kloda, Carl S. Byington, Kenneth Semega
GT 2011; 427-435https://doi.org/10.1115/GT2011-46537
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Aircraft engines , Engines , Actuators , Feedback , Sensors , Aircraft , Algorithms , Control equipment , Cycles , Electromechanical actuators
Quantifying Optical Tip-Timing Probe Error With Laboratory Apparatus
Bruce D. Hockaday
GT 2011; 437-444https://doi.org/10.1115/GT2011-46677
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Errors , Probes , Blades , Deflection , Stress , Airfoils , Clocks , Resolution (Optics) , Vibration , Engines
Robust Lean Blowout Sensing for Turbine Engine Combustors
Ravi K. Bompelly, Jerry M. Seitzman
GT 2011; 445-455https://doi.org/10.1115/GT2011-46702
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combustion chambers , Gas turbines , Combustion , Dynamics (Mechanics) , Flames , Signals , Acoustics , Fuels , Ignition , Noise (Sound)
Robust Post-Processing Procedure for Multi-Hole Pressure Probes
Tolga Yasa, Guillermo Paniagua
GT 2011; 457-463https://doi.org/10.1115/GT2011-46719
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Pressure , Probes , Calibration , Flow (Dynamics) , Manufacturing , Algorithms , Computers , Contamination , Fibers , Geometry
Neural Networks for Gas Turbine Fault Identification: Multilayer Perceptron or Radial Basis Network?
Igor Loboda, Yakov Feldshteyn, Volodymyr Ponomaryov
GT 2011; 465-475https://doi.org/10.1115/GT2011-46752
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Artificial neural networks , Gas turbines , Multilayer perceptron , Algorithms , Computation , Computers , Condition monitoring , Engines , Feature extraction , Flaw detection
More Electric Engine Architecture for Aircraft Engine Application
Noriko Morioka, Hitoshi Oyori, Daiki Kakiuchi, Kanji Ozawa
GT 2011; 477-486https://doi.org/10.1115/GT2011-46765
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Aircraft engines , Engines , Control systems , Generators , Pumps , Aircraft , Carbon dioxide , Control equipment , Coolers , Design
Health Monitoring in an Industrial Gas Turbine Application by Using Model Based Diagnosis Techniques
Emil Larsson, Jan A˚slund, Erik Frisk, Lars Eriksson
GT 2011; 487-495https://doi.org/10.1115/GT2011-46825
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Industrial gases , Turbines , Compressors , Flow (Dynamics) , Errors , Maintenance , Mechanical drives , Monitoring systems , Pressure , Simulation

Education

Design of a Rich Internet Application for Gas Turbine Engine Simulations
Crosby Johnson, Christopher Paolini, Subrata Bhattacharjee
GT 2011; 497-504https://doi.org/10.1115/GT2011-45739
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Engineering simulation , Gas turbines , Internet , Simulation , Equilibrium (Physics) , Computer software , Emissions , Fluids , Engines
The Use of Mathcad Functions in Teaching an Undergraduate Aerospace Propulsion Course
Kevin H. Macfarlan, Stephen T. McClain
GT 2011; 505-510https://doi.org/10.1115/GT2011-46097
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Aerospace industry , Propulsion , Teaching , Undergraduate students , Students , Algorithms , Bridges (Structures) , Computers , Engines , Feedback
Design and Implementation of Problem-Based Learning in a Graduate Engineering Course
Ahti Jaatinen, Teemu Turunen-Saaresti, Jari Backman
GT 2011; 511-516https://doi.org/10.1115/GT2011-46288
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Engineering education , Students , Feedback
Aerodynamic Design, Analysis, Integration, and Optimization Tool for Centrifugal Compressor OEM
Yuri Biba, Julie A. Maier
GT 2011; 517-523https://doi.org/10.1115/GT2011-46357
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , Design , Optimization , Computer software , Education , Flexible systems , Flow (Dynamics) , Geometry , Solid models , Turbomachinery
Integrating Systems Engineering Into the USAF Academy Capstone Gas Turbine Engine Course
August J. Rolling, Aaron R. Byerley, Charles F. Wisniewski
GT 2011; 525-535https://doi.org/10.1115/GT2011-46440
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Air Force , Gas turbines , Systems engineering , Design , Aerospace engineering , Aircraft engines , Complex systems , Engine design , Engineering design , Risk
Design, Model, and Virtually Fly: Investigation of the B-1A Cruise Performance With F101 Engines Compared With Its Re-Engined Performance Using F119 Engines
August J. Rolling
GT 2011; 537-545https://doi.org/10.1115/GT2011-46446
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Engines , Matlab , Computer software , Drag (Fluid dynamics) , Engine design , Integrated systems , Simulation , Visualization

Electric Power

The ORegen™ Waste Heat Recovery Cycle: Reducing the CO2 Footprint by Means of Overall Cycle Efficiency Improvement
Paolo Del Turco, Antonio Asti, Alberto Scotti Del Greco, Alessandro Bacci, Giacomo Landi, Giacomo Seghi
GT 2011; 547-556https://doi.org/10.1115/GT2011-45051
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Carbon dioxide , Cycles , Heat recovery , Emissions , Gas turbines , Fluids , Rankine cycle , Waste heat , Climate change , Closed loop systems
Functional Analysis and Exergoeconomic Evaluation for the Combined Production of Electromechanical Power and Useful Heat of a Cogeneration Power Plant
Washington Orlando Irrazabal Bohorquez, Joa˜o Roberto Barbosa
GT 2011; 557-566https://doi.org/10.1115/GT2011-45055
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Cogeneration plants , Functional analysis , Heat , Bagasse , Combustion , Electric power generation , Power stations , Biomass , Carbon dioxide , Climate change
Compressor Performance Recovery Systems: A New Thermoeconomic Approach
Andrea Fabbri, Alberto Traverso, Silvio Cafaro
GT 2011; 567-577https://doi.org/10.1115/GT2011-45121
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , Thermoeconomics , Power stations , Blades , Corrosion , Erosion , Filters , Fuel consumption , Gas turbines , HEPA filters
Development of Key Technologies for the Next Generation High Temperature Gas Turbine
Eisaku Ito, Ikuo Okada, Keizo Tsukagoshi, Junichiro Masada
GT 2011; 579-586https://doi.org/10.1115/GT2011-45172
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , High temperature , Carbon dioxide , Climate change , Combined cycles , Design , Emissions , Power stations , Thermal efficiency
F-Class DLN Technology Advancements: DLN2.6+
Krishna Venkataraman, Skigh E. Lewis, Jayaprakash Natarajan, Stephen R. Thomas, Joseph V. Citeno
GT 2011; 587-594https://doi.org/10.1115/GT2011-45373
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combustion systems , Doors , Emissions , Fuels , Industrial gases , Nitrogen oxides , Stress , Turbines
The Approach to the Development of the Next Generation Gas Turbine and History of Tohoku Electric Power Company Combined Cycle Power Plants
Yoshiaki Nishimura, Sadahiro Ohno, Shinya Ishikawa, Junichiro Masada, Kazumasa Takata
GT 2011; 595-600https://doi.org/10.1115/GT2011-45464
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combined cycle power stations , Electricity (Physics) , Gas turbines , Circuits , Emissions , Carbon dioxide , Climate change , Combined cycles , Combustion chambers , Cooling systems
Power Output Increase due to Decreasing Gas Turbine Inlet Temperature by Mist Atomization
Yukiko Agata, Shinichi Akabayashi, Shinya Ishikawa, Yuji Matsumura
GT 2011; 601-609https://doi.org/10.1115/GT2011-45514
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Temperature , Nozzles , Flow (Dynamics) , Erosion , Evaporation , Power stations , Air flow , Cities , Combustion
A Higher Turndown Flexibility on AE64.3A Gas Turbine: Design and Operating Experience
Federico Bonzani, Luca Bozzi, Alessia Bulli, Andrea Silingardi, Domenico Zito
GT 2011; 611-619https://doi.org/10.1115/GT2011-45518
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Gas turbines , Stress , Compressors , Engines , Inlet guide vanes , Power stations , Air flow , Carbon dioxide , Climate
Thermo-Economic Optimization of the CCPP Design With Supplementary Firing Considering Off-Design Performance and Operating Profile
Enrico Conte, Camille Pedretti
GT 2011; 621-631https://doi.org/10.1115/GT2011-45550
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combined cycle power stations , Design , Firing , Optimization , Thermoeconomics , Dimensions , Steam , Cycles , Heat recovery steam generators , Boundary-value problems
Operating Experience on Advanced Technology AE64.3A Gas Turbine
Federico Bonzani, Andrea Silingardi, Laura Traversone, Luigi Di Pasquale
GT 2011; 633-639https://doi.org/10.1115/GT2011-45563
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Combined cycles , Combustion , Cycles , Design , Energy generation , Engines , Fuel oils , Generators , Power stations
Combined Cycle Off-Design Performance Estimation: A Second-Law Perspective
S. Can Gu¨len, Joseph John
GT 2011; 641-652https://doi.org/10.1115/GT2011-45940
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combined cycles , Design , Combined cycle power stations , Simulation , Boundary-value problems , Computational methods , Computers , Control systems , Engineers , Physics
A Competitive Market Approach to Gas Turbine Technology Portfolio Selection
Cedric Y. Justin, Simon I. Briceno, Dimitri N. Mavris, Frederic Villeneuve
GT 2011; 653-663https://doi.org/10.1115/GT2011-45989
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Optimization , Power stations , Robustness , Transparency , Turbines
The Role of Simple and Combined Cycles in Renewable Applications Deployment
Justin Zachary
GT 2011; 665-671https://doi.org/10.1115/GT2011-46484
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combined cycles , Gas turbines , Solar energy , Carbon capture and storage , Construction , Design , Emissions , Energy storage , Optimization , Reactor protection systems
Process Flow Model of Combined High Temperature Fuel Cell Operated With Mixture of Methane and Carbon Dioxide
Farshid Zabihian, Alan S. Fung
GT 2011; 673-680https://doi.org/10.1115/GT2011-46680
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Carbon dioxide , Flow (Dynamics) , Fuel cells , High temperature , Methane , Solid oxide fuel cells , Fuels , Cycles , Anodes , Exhaust systems

Microturbines and Small Turbomachinery

Effects of Pulsating Flow Conditions on Mixed Flow Turbine Performance
Li Chen, Weilin Zhuge, Yangjun Zhang, Lei Xie, Shuyong Zhang
GT 2011; 681-689https://doi.org/10.1115/GT2011-45164
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Flow (Dynamics) , Pulsatile flow , Turbines , Internal combustion engines , Unsteady flow
Prospects for Application of Ship’s Multi-Module Gas Turbine Engines on the Basis of Ceramic Tunnel Turbomachines
A. V. Sudarev, A. A. Suryaninov, V. G. Konakov
GT 2011; 691-702https://doi.org/10.1115/GT2011-45201
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Ceramics , Gas turbines , Tunnels , Turbomachinery , Design , Engines , Cycles , Machinery , Explosions , Fire
“Low Cost” Microturbines via the Turbocharger Route
Colin Rodgers
GT 2011; 703-712https://doi.org/10.1115/GT2011-45220
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Microturbines , Turbochargers , Compressors , Turbines , Automobiles , Corporate average fuel economy , Emissions , Fuel efficiency , Gas turbines , Inflow
A Computational Study of Hydrogen Substitution Effects on the Combustion Performance for a Micro Gas Turbine
Hsin-Yi Shih, Chi-Rong Liu
GT 2011; 713-721https://doi.org/10.1115/GT2011-45275
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combustion , Fuels , Hydrogen , Micro gas turbines
Investigations Into the Performance of a Turbogenerated Biogas Engine During Speed Transients
Ian Thompson, Stephen Spence, Charles McCartan, David Thornhill, Jonathan Talbot-Weiss
GT 2011; 723-732https://doi.org/10.1115/GT2011-45317
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Biogas , Engines , Transients (Dynamics) , Turbogenerators , Turbocharged engines , Exhaust systems , Turbochargers , Geometry , Internal combustion engines , Pressure
Improved Map Scaling Methods for Small Turbocharger Compressors
Benedikt Ernst, Jasper Kammeyer, Joerg R. Seume
GT 2011; 733-744https://doi.org/10.1115/GT2011-45345
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , Turbochargers , Engines , Combustion , Design , Engineering simulation , Simulation , Turbines
Study on Compensatory Magnitude of Axial Misalignment for Flexible Couplings Assembled by Interference Fit
Guoping Wang, Hualing Chen, Shemiao Qi, Jiuhui Wu, Lie Yu
GT 2011; 745-758https://doi.org/10.1115/GT2011-45347
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Couplings , Press fits , Diaphragms (Mechanical devices) , Diaphragms (Structural) , Disks , Boundary-value problems , Gears , Design , Manufacturing , Metals
Improving the Application of Turbine Maps in 1D Engine Process Modelling
Mathias Vogt, Florian Frese, Holger Mai, Roland Baar
GT 2011; 759-769https://doi.org/10.1115/GT2011-45500
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Modeling , Turbines , Boundary-value problems , Flow (Dynamics) , Pressure , Process simulation , Temperature , Turbochargers , Emissions
A High Performance Low Pressure Ratio Turbine for Engine Electric Turbocompounding
Aman M. I. Mamat, Muhamad H. Padzillah, Alessandro Romagnoli, Ricardo F. Martinez-Botas
GT 2011; 771-784https://doi.org/10.1115/GT2011-45541
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Engines , Flow (Dynamics) , Pressure , Turbines
Evaluation of a Wire-Mesh Duct Burner Premixer Using LSI Techniques
Omar B. Ramadan, Patrick M. Hughes, J. E. Donald Gauthier
GT 2011; 785-794https://doi.org/10.1115/GT2011-45752
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Ducts , Microturbines , Nitrogen oxides , Wire mesh , Fuels , Emissions , Combined heat and power , Combustion , Exhaust systems , Firing
Vibration Control of a Turbo Molecular Pump Suspended by Active Magnetic Bearings
Kai Zhang, Jinping Dong, Xingjian Dai, Xiaozhang Zhang
GT 2011; 795-799https://doi.org/10.1115/GT2011-45785
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Magnetic bearings , Turbochargers , Vacuum pumps , Vibration control , Rotors , Vibration , Control algorithms , Control equipment , Pumps , Stability
Geometry Optimization of Textured 3-D Micro-Thrust Bearings
C. I. Papadopoulos, E. E. Efstathiou, P. G. Nikolakopoulos, L. Kaiktsis
GT 2011; 801-810https://doi.org/10.1115/GT2011-45822
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Bearings , Geometry , Navier-Stokes equations , Optimization , Thrust
Novel Concept for an Air-Pressure Driven Micro-Turbine for Power Generation
Michele Focchi, Giacomo Persico, Emanuele Guglielmino, Darwin Caldwell
GT 2011; 811-822https://doi.org/10.1115/GT2011-45897
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Energy generation , Pressure , Turbines , Engineering prototypes , Generators , Air flow , Electricity (Physics) , Fluids , Impulse (Physics) , Machinery
ICR350: A Turbine Solution for Medium and Heavy Duty Vehicles
David W. Dewis
GT 2011; 823-832https://doi.org/10.1115/GT2011-45945
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Construction equipment , Turbines , Engines , Batteries , Diesel engines , Emissions , Gas turbines , Microturbines , Vehicles , Aircraft
Development of an Air-Cycle Environmental Control System for Automotive Applications
Christopher J. Forster, Patrick Lemieux
GT 2011; 833-842https://doi.org/10.1115/GT2011-46007
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Automotive industry , Control systems , Cycles , Cooling , Engines , Testing , Air conditioning , Compressed air , Compressors , Pressure
Numerical Investigation of Different Casing Treatments on Performance of a High Speed Centrifugal Compressor Stage
Yan Ma, Guang Xi, Guangkuan Wu
GT 2011; 843-851https://doi.org/10.1115/GT2011-46015
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compressors , Flow (Dynamics) , Impellers
CFD Optimization of Gas-Side Flow Channel Configuration Inside a High Temperature Bayonet Tube Heat Exchanger With Inner and Outer Fins
T. Ma, Y. P. Ji, M. Zeng, Q. W. Wang
GT 2011; 853-861https://doi.org/10.1115/GT2011-46036
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Computational fluid dynamics , Fins , Flow (Dynamics) , Heat exchangers , High temperature , Optimization , Pressure drop
A Simplified CFD Model With Multi-Periodic Boundary Conditions for Cross Wavy Channels
L. X. Du, M. Zeng, Q. W. Wang
GT 2011; 863-869https://doi.org/10.1115/GT2011-46050
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Boundary-value problems , Computational fluid dynamics
Ideal Turbo Charger Modeling and Simulation Using Bond Graph Approach
A. R. Sheikh Movaghar, A. Novinzadeh
GT 2011; 871-879https://doi.org/10.1115/GT2011-46072
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Modeling , Simulation , Turbochargers , Pressure , Compressors , Differential equations , Dynamics (Mechanics) , Fuels , Internal combustion engines , Nozzles
Integrated Optimization Design for a Radial Turbine Wheel of a 100kW-Class Microturbine
Lei Fu, Yan Shi, Qinghua Deng, Huaizhi Li, Zhenping Feng
GT 2011; 881-889https://doi.org/10.1115/GT2011-46140
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Microturbines , Optimization , Turbines , Wheels , Weight (Mass) , Design methodology , Modeling , Bearing design , Cylinders
Numerical Meanline Analysis and Overall Performance Prediction of Radial-Inflow Turbine for a 600 kW Cycle Gas Engine
Rube´n A. Miranda Carrillo, Marco A. R. Nascimento
GT 2011; 891-898https://doi.org/10.1115/GT2011-46148
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Cycles , Engines , Inflow , Turbines , Microturbines , Axial flow , Computers , Distributed power generation , Energy / power systems , Flow (Dynamics)
An Investigation of the Flow Structures and Flow Control in a Variable Geometry Turbine
Lei Huang, Weilin Zhuge, Yangjun Zhang, Lifeng Hu
GT 2011; 899-907https://doi.org/10.1115/GT2011-46177
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Flow (Dynamics) , Flow control , Geometry , Turbines , Nozzles , Rotors , Blades , Computational fluid dynamics , Vortices , Design
Liquid Bio-Fuels in an EGR Equipped Micro Gas Turbine
Maria Cristina Cameretti, Raffaele Tuccillo, Fabrizio Reale, Renzo Piazzesi
GT 2011; 909-918https://doi.org/10.1115/GT2011-46341
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Biofuel , Exhaust gas recirculation , Micro gas turbines , Biomass , Combustion , Combustion chambers , Ejectors , Fuels , Pollution , Turbines
Numerical Investigation of Aerodynamic Radial and Axial Impeller Forces in a Turbocharger
Henning Raetz, Jasper Kammeyer, Christoph K. Natkaniec, Joerg R. Seume
GT 2011; 919-928https://doi.org/10.1115/GT2011-46360
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Impellers , Turbochargers , Compressors , Turbines , Cavities , Aerodynamics , Bearings , Computational fluid dynamics , Computer simulation , Engineering simulation
Optimization of a Micro Gas Turbine Using Genetic Algorithm
Maryam Pourhasanzadeh, Sajjad Bigham
GT 2011; 929-937https://doi.org/10.1115/GT2011-46400
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Genetic algorithms , Micro gas turbines , Optimization , Design , Gas turbines , Combustion chambers , Compressors , Distributed power generation , Temperature , Air compressors
A Study of Heat Transfer Augmentation for Recuperative Heat Exchangers: Comparison Between Two Dimple Geometries
Michelle I. Valentino, Lucky V. Tran, Mark Ricklick, J. S. Kapat
GT 2011; 939-951https://doi.org/10.1115/GT2011-46401
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Heat exchangers , Heat transfer , Reynolds number , Cavities , Copper , Flow (Dynamics) , Geometry
Magnetic-Aerostatic Hybrid Bearing for Mini-Type High-Speed Air Turbine Cartridge
Shih-Chun Wang, Kuang-Yuh Huang
GT 2011; 953-960https://doi.org/10.1115/GT2011-46513
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Bearings , Load bearing capacity , Magnetic levitation , Thrust bearings , Turbines
A One-Dimensional Investigation of the Effect of an Active Control Turbocharger on Internal Combustion Engine Performance
Apostolos Pesiridis, Benjamin Dubois, Ricardo F. Martinez-Botas
GT 2011; 961-969https://doi.org/10.1115/GT2011-46599
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Geometry , Internal combustion engines , Turbochargers
Evaluation of Commercial Alumina-Forming Austenitic Foil for Advanced Recuperators
Bruce A. Pint, Michael P. Brady, Yukinori Yamamoto, Kinga A. Unocic, Wendy J. Matthews
GT 2011; 971-976https://doi.org/10.1115/GT2011-46704
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Alloys , Corrosion , Creep , Exhaust systems , Microturbines , Oxidation , Stainless steel , Temperature , Testing , Water vapor
Secondary Flow Structures and Losses in a Radial Turbine Nozzle
Christoph K. Natkaniec, Jasper Kammeyer, Joerg R. Seume
GT 2011; 977-987https://doi.org/10.1115/GT2011-46753
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Flow (Dynamics) , Nozzles , Turbines , Stators , Vortices , Clearances (Engineering) , Computational fluid dynamics , Geometry , Inflow , Rotors

Solar Brayton and Rankine Cycle

Gas Turbine/Solar Parabolic Trough Hybrid Designs
Craig S. Turchi, Zhiwen Ma, Michael Erbes
GT 2011; 989-996https://doi.org/10.1115/GT2011-45184
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Gas turbines , Parabolic troughs , Solar energy , Combined cycle power stations , Combined cycles , Design , Fossil fuels , Heat , Natural gas , Thermal energy storage
A Solar-Hybrid Power Plant Integrated With Ethanol Chemical-Looping Combustion
Hui Hong, Ying Pan, Xiaosong Zhang, Tao Han, Shuo Peng, Hongguang Jin
GT 2011; 997-1010https://doi.org/10.1115/GT2011-45600
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Combustion , Ethanol , Power stations , Solar energy , Metals , Fuels , Temperature , Cycles , Gas turbines , Turbines
Development of a Model for the Simulation of Organic Rankine Cycles Based on Group Contribution Techniques
Enrico Saverio Barbieri, Mirko Morini, Michele Pinelli
GT 2011; 1011-1019https://doi.org/10.1115/GT2011-45616
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Organic Rankine cycle , Simulation , Fluids , Temperature , Heat , Combustion , Cycles , Benzene , Combined cycles , Cooling systems
Thermal Modeling of a Solar Steam Turbine With a Focus on Start-Up Time Reduction
James Spelling, Markus Jo¨cker, Andrew Martin
GT 2011; 1021-1030https://doi.org/10.1115/GT2011-45686
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Modeling , Solar energy , Steam turbines , Turbines , Temperature , Steam , Heat , Design , Dynamic models , Errors
Test Results From a Concentrated Solar Microturbine Brayton Cycle Integration
Brian Dickey
GT 2011; 1031-1036https://doi.org/10.1115/GT2011-45918
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Brayton cycle , Microturbines , Solar energy , Electrical efficiency , Testing , Air flow , Concentrating solar power , Electric power generation , Energy generation , Fluids
Design and Experimental Study of Organic Rankine Cycle (ORC) and Radial Turbine
Seok Hun Kang, Dae Hun Chung
GT 2011; 1037-1043https://doi.org/10.1115/GT2011-46152
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Organic Rankine cycle , Turbines , Cycles , Electricity (Physics) , Entropy , Fluids , Generators , Heat , Low temperature
Concentrated Solar Thermal Downstream of the Solar Field: Design and Optimization of the Associated Power Generation Cycle
Justin Zachary, Natasha Jones, Aslan Golant
GT 2011; 1045-1051https://doi.org/10.1115/GT2011-46487
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Concentrating solar power , Cycles , Design , Energy generation , Optimization , Solar energy , Construction , Economics , Energy / power systems , Flow (Dynamics)
Alternative Approach to Determining the Preferred Plant Size of Parabolic Trough CSP Power Plants
D. Sa´nchez, H. Frej, J. M. Mun˜oz de Escalona, R. Chacartegui, T. Sa´nchez
GT 2011; 1053-1062https://doi.org/10.1115/GT2011-46585
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Parabolic troughs , Power stations , Energy generation , Fossil fuels , Carbon , Concentrating solar power , Design , Governments , Natural gas , Optimization
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
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