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Proceedings Papers

Proceedings Volume Cover
ASME Turbo Expo 2008: Power for Land, Sea, and Air
June 9–13, 2008
Berlin, Germany
Conference Sponsors:
  • International Gas Turbine Institute
ISBN:
978-0-7918-4317-8
Volume 7: Education; Industrial and Cogeneration; Marine; Oil and Gas Applications

Education

From Research to Didactics: The Course of Dynamics and Control of Fluid Machines for Automation Engineering Students
M. Venturini, M. Morini
GT 2008; 1-9doi:https://doi.org/10.1115/GT2008-50042
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Topics: Dynamics (Mechanics) , Engineering students , Fluids , Machinery , Students , Design , Feedback , Compressed air , Compressors , Computers
Ten Years of Experience With a Small Jet Engine as a Support for Education
O. Le´onard, J. P. Thomas, S. Borguet
GT 2008; 11-21doi:https://doi.org/10.1115/GT2008-50172
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Topics: Education , Jet engines , Engines , Students , Turbines , Chain , Combustion chambers , Compressors , Flow (Dynamics) , Fuels
A Scale Independent Model for Turbine Surface Cooling
Ronald S. LaFleur
GT 2008; 23-33doi:https://doi.org/10.1115/GT2008-50428
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Topics: Cooling , Turbines , Cycles , Design , Temperature , Base metals , Convection , Engines , Blades , Brayton cycle
On the Teaching of Performance Evaluation and Assessment of a Combined Cycle Cogeneration System
A. O¨zer Arnas, Daisie D. Boettner, Seth A. Norberg, Gunnar Tamm, Jason R. Whipple
GT 2008; 35-42doi:https://doi.org/10.1115/GT2008-50859
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Topics: Combined cycles , Combined heat and power , Performance evaluation , Teaching , Cogeneration systems , Engineering teachers , Undergraduate students , Exergy , First law of thermodynamics , Second law of thermodynamics

Industrial and Cogeneration

Gas Turbine Plant Thermal Performance Degradation Assessment
Alexander V. Mirzamoghadam
GT 2008; 43-51doi:https://doi.org/10.1115/GT2008-50032
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Topics: Gas turbines , Compressors , Heat , Combined cycle power stations , Combined cycles , Corrective actions , Cycles , Maintenance , Power stations , Reliability
Density Wave Oscillation in a Vertical Type Natural Circulation Heat Recovery Steam Generator: A Numerical Study
Heimo Walter, Wladimir Linzer
GT 2008; 53-63doi:https://doi.org/10.1115/GT2008-50035
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Topics: Density , Heat recovery steam generators , Oscillations , Waves , Flow (Dynamics) , Design , Heat flux , Simulation results , Boilers , Flow instability
Siemens SGT-800 Industrial Gas Turbine Enhanced to 47MW: Design Modifications and Operation Experience
Sergey Shukin, Mats Annerfeldt, Mats Bjorkman
GT 2008; 65-70doi:https://doi.org/10.1115/GT2008-50087
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Topics: Design , Industrial gases , Turbines , Cooling , Gas turbines , Air flow , Blades , Casting , Combustion chambers , Compressors
Efforts to Improve Aerodynamics of the Large Cooling Tower Fan by Modifications of the Fan Stack
Steve Ingistov
GT 2008; 71-80doi:https://doi.org/10.1115/GT2008-50223
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Topics: Aerodynamics , Cooling , Cooling towers , Dimensions , Leakage , Plates (structures) , Sealing (Process) , Suction , Swirling flow , Turbulence
Development and Testing of the Upgraded High Pressure Turbine Section for an Industrial Gas Turbine
E. Aschenbruck, D. Frank, T. Korte, R. Mu¨ller, U. Orth
GT 2008; 81-88doi:https://doi.org/10.1115/GT2008-50304
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Topics: High pressure (Physics) , Industrial gases , Testing , Turbines , Blades , Gas turbines , Clearances (Engineering) , Design , Temperature , Aerodynamics
Static and Dynamic Analysis of 2.5 MW Power Generation Gas Turbine Unit
SooYong Kim, SeungJoo Choe, Valeri P. Kovalevskiy, Dong Hwa Kim
GT 2008; 89-97doi:https://doi.org/10.1115/GT2008-50314
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Topics: Dynamic analysis , Energy generation , Gas turbines , Surges , Rotation , Signals , Fuels , Temperature , Turbines , Valves
Overspray and Interstage Fog Cooling in Compressor Using Stage-Stacking Scheme: Part 1—Development of Theory and Algorithm
Ting Wang, Jobaidur R. Khan
GT 2008; 99-109doi:https://doi.org/10.1115/GT2008-50322
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Topics: Algorithms , Compressors , Cooling , Gas turbines , Drops , Water , Aerodynamics , Airfoils , Compression , Evaporation
Overspray and Interstage Fog Cooling in Compressor Using Stage-Stacking Scheme: Part 2—Case Study
Ting Wang, Jobaidur R. Khan
GT 2008; 111-121doi:https://doi.org/10.1115/GT2008-50323
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Topics: Compressors , Cooling , Pressure , Density , Algorithms , Blades , Compression , Flow (Dynamics) , Shapes , Sprays
Effect of Different Economic Support Policies on the Optimal Definition and Operation of a CHP and RES Distributed Generation Systems
Melchiorre Casisi, Lorenzo Castelli, Piero Pinamonti, Mauro Reini
GT 2008; 123-130doi:https://doi.org/10.1115/GT2008-50353
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Topics: Combined heat and power , Distributed power generation , Central heating , Thermal energy , Carbon dioxide , Cities , Cogeneration systems , Emissions , Energy generation , Gas turbines
A Compressible Flow Network Analysis for Design Upgrade of Industrial Aeroderivative High Pressure Turbine Blades
H. Jin, A. Riddle, L. Cooke
GT 2008; 131-136doi:https://doi.org/10.1115/GT2008-50431
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Topics: Blades , Compressible flow , Cooling , Design , High pressure (Physics) , Network analysis , Turbine blades
Implementation and Operation of a Cogeneration Plant for Steam Injection in Oil Field
Mihai Borzea, Gheorghe Fetea, Radu Codoban
GT 2008; 137-146doi:https://doi.org/10.1115/GT2008-50518
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Topics: Cogeneration plants , Oil fields , Steam , Thermal energy , Gas turbines , Heat recovery steam generators , Climate change , Combined heat and power , Design , Fuels
Property Risk Assessment for Combined Cycle Power Plants
G. J. Orme, M. Venturini
GT 2008; 147-157doi:https://doi.org/10.1115/GT2008-50586
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Topics: Combined cycle power stations , Risk assessment , Risk , Combined cycles , Electricity (Physics) , Feedback
Proposal of a Novel Multi-Functional Energy System for Cogeneration of Coke, Hydrogen and Power
Hongguang Jin, Shien Sun, Wei Han, Lin Gao
GT 2008; 159-168doi:https://doi.org/10.1115/GT2008-50676
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Topics: Coke , Combined heat and power , Hydrogen , Coal , Fuels , Exergy , Ovens , Thermal energy , Chemical energy , Chemical processes
Off-Design Operation of the Multi-Fuel CHP Cycles
Wojciech Kosman
GT 2008; 169-178doi:https://doi.org/10.1115/GT2008-50746
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Topics: Combined heat and power , Cycles , Design , Fuels , Biomass , Coal , Natural gas , Steam , Stress
Influence of Compressor Performance Maps Shape on Wet Compression
Rakesh K. Bhargava, Michele Bianchi, Francesco Melino, Antonio Peretto, Pier Ruggero Spina
GT 2008; 179-192doi:https://doi.org/10.1115/GT2008-50761
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Topics: Compression , Compressors , Shapes , Water , Evaporation , Gas turbines , Combined cycle power stations , Combined cycles , Downtime , Surges
Simulation of Inlet Fogging and Wet-Compression in a Single Stage Compressor Including Erosion Analysis
Jobaidur R. Khan, Ting Wang
GT 2008; 193-206doi:https://doi.org/10.1115/GT2008-50874
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Topics: Compression , Compressors , Erosion , Simulation , Drops , Rotors , Stators , Water , Dynamics (Mechanics) , Heat transfer
Inlet Air Cooling With Overspray Applied to a Two-Stage Centrifugal Compressor
Takanori Shibata, Yasuo Takahashi, Shigeo Hatamiya
GT 2008; 207-217doi:https://doi.org/10.1115/GT2008-50893
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Topics: Compressors , Cooling , Gas turbines
The Effects of Wet Compression on the Separated Flow in a Compressor Stage
Lanxin Sun, Yijin Li, Qun Zheng, Rakesh Bhargava
GT 2008; 219-236doi:https://doi.org/10.1115/GT2008-50920
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Topics: Compression , Compressors , Computer simulation , Flow (Dynamics)
Experimental Investigation of a Single Stage Helium Axial Compressor of HTGR-10 Power Conversion Unit
Rongkai Zhu, Qun Zheng, Jiguo Zou, Rakesh Bhargava
GT 2008; 237-246doi:https://doi.org/10.1115/GT2008-50921
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Topics: Compressors , Energy conversion , Helium , Simulation , Very high temperature reactors
Researches of Similitude Theory for Axial Flow Helium Compressor
Rongkai Zhu, Qun Zheng, Guoqiang Yue, Jiguo Zou
GT 2008; 247-254doi:https://doi.org/10.1115/GT2008-50937
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Topics: Axial flow , Compressors , Helium
Numerical Simulation to Determine Ejection Device Geometry for Turbo-Shaft Driven Water Pump
Jeni A. Popescu, Valeriu A. Vilag, Romulus Petcu, Ion Vataman, Valentin Silivestru
GT 2008; 255-262doi:https://doi.org/10.1115/GT2008-50968
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Topics: Computer simulation , Geometry , Pumps , Turbochargers , Water , Engines , Computational fluid dynamics , Cooling , Flow (Dynamics) , Gases
Numerical Simulation of a Padded Finger Seal
Guoqiang Yue, Qun Zheng, Rongkai Zhu
GT 2008; 263-271doi:https://doi.org/10.1115/GT2008-50997
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Topics: Computational fluid dynamics , Computer simulation , Computer software , Displacement , Fluid dynamics , Fluids , Leakage , Pressure , Turbomachinery
GT Inlet Air Boosting and Cooling Coupled With Cold Thermal Storage in Combined Cycle Power Plants
Nicola Palestra, Giovanna Barigozzi, Antonio Perdichizzi
GT 2008; 273-283doi:https://doi.org/10.1115/GT2008-51061
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Topics: Combined cycle power stations , Cooling , Thermal energy storage , Cooling systems , Pressure , Energy generation , Gas turbines , Compression , Compressors , Design
Continued Enhancement of SGT-600 Gas Turbine Design and Maintenance
Vladimir Navrotsky, Mats Blomstedt, Niklas Lundin, Claes Uebel
GT 2008; 285-293doi:https://doi.org/10.1115/GT2008-51143
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Topics: Design , Gas turbines , Maintenance , Cycles , Emissions , Engines , Reliability , Combustion chambers , Compressors , Control systems
A Multi-Step Optimization Approach to Distributed Cogeneration Systems With Heat Storage
Stefano Campanari, Giampaolo Manzolini, Paolo Silva
GT 2008; 295-304doi:https://doi.org/10.1115/GT2008-51227
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Topics: Cogeneration systems , Heat storage , Optimization , Stress , Combined heat and power , Heat , Boilers , Climate , Economic analysis , Heating
High Efficiency Gas Turbine Based Power Cycles—A Study of the Most Promising Solutions: Part 1—A Review of the Technology
Rakesh K. Bhargava, Michele Bianchi, Stefano Campanari, Andrea De Pascale, Giorgio Negri di Montenegro, Antonio Peretto
GT 2008; 305-314doi:https://doi.org/10.1115/GT2008-51275
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Topics: Gas turbines , Thermodynamic power cycles , Cycles , Brayton cycle , Steam , Molten carbonate fuel cells , Solid oxide fuel cells , Turbines , Blades , Cooling
High Efficiency Gas Turbine Based Power Cycles—A Study of the Most Promising Solutions: Part 2—A Parametric Performance Evaluation
Rakesh K. Bhargava, Michele Bianchi, Stefano Campanari, Andrea De Pascale, Giorgio Negri di Montenegro, Antonio Peretto
GT 2008; 315-326doi:https://doi.org/10.1115/GT2008-51277
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Topics: Gas turbines , Performance evaluation , Thermodynamic power cycles , Cycles , Brayton cycle , Turbines , Combined cycles , Fuel cells , Solid oxide fuel cells , Steam
CFD Analysis of the Flow Through Tube Banks of HRSG
Marco Torresi, Alessandro Saponaro, Sergio Mario Camporeale, Bernardo Fortunato
GT 2008; 327-337doi:https://doi.org/10.1115/GT2008-51300
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Topics: Computational fluid dynamics , Flow (Dynamics) , Heat recovery steam generators , Porous materials
Introduction of the Taurus™ 65 Industrial Gas Turbine for Power Generation
George Rocha, Simon Reynolds, Theresa Brown
GT 2008; 339-348doi:https://doi.org/10.1115/GT2008-51328
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Topics: Energy generation , Industrial gases , Turbines , Design , Engines , Cycles , Durability , Gas turbines , Air compressors , Combined heat and power
Part-Load Performance of MCFC/APT Hybrid Power System
Y. Tsujikawa, S. Terashima, T. Yamauchi, S. Katsura, K. Kaneko
GT 2008; 349-355doi:https://doi.org/10.1115/GT2008-51444
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Topics: Hybrid power systems , Molten carbonate fuel cells , Stress , Cycles , Thermal efficiency , Turbines , Atmospheric pressure , Compressors , Cooling , Design
Gas Turbine Power Augmentation: Parametric Study Relating to Fog Droplet Size and Its Influence on Evaporative Efficiency
Mustapha Chaker, Cyrus B. Meher-Homji
GT 2008; 357-369doi:https://doi.org/10.1115/GT2008-51476
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Topics: Drops , Gas turbines , Nozzles , Compression , Sprays , Air flow , Compressors , Ducts , Evaporation , Evaporative cooling
Feasibility Study of Low Grade Heat Recovery Rankine Cycle Using Ozone-Neutral Refrigerant
W. Wayne Husband, Asfaw Beyene
GT 2008; 371-376doi:https://doi.org/10.1115/GT2008-51537
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Topics: Rankine cycle , Refrigerants , Waste heat , Fluids , Cost benefit analysis , Energy generation , Exhaust systems , Industrial research , Modeling , Photovoltaic power systems

Marine

Economic Benefits of Hybrid Drive Propulsion for DDG-51 Class Ships
Fred T. Willett, Greg Reed, Gene Castles
GT 2008; 377-385doi:https://doi.org/10.1115/GT2008-50053
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Topics: Propulsion , Ships , Motors , Turbines , Design , Propellers , Propulsion systems , Turbogenerators , Electric propulsion , Electricity (Physics)
Marine Gas Turbine Package for the Korean Navy PKX Program
Naytoe Aye, Glenn McAndrews, Bob Mendenhall
GT 2008; 387-394doi:https://doi.org/10.1115/GT2008-50098
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Topics: Marine gas turbines , Navy , Construction , Design , Engines , Gas turbines , Propulsion , Propulsion systems , Seas , Ships
Unique Replacement Method Developed for the U.S. Navy’s Newest Gas Turbine Powered Warship
Shaun D. Hatcher, Matthew J. Driscoll, Abe L. Boughner
GT 2008; 395-404doi:https://doi.org/10.1115/GT2008-50114
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Topics: Gas turbines , Ships , Design , Hardware , Propulsion systems , Tooling , Aircraft , Construction , Cranes , Engineering drawings
Integrating MT30 Into the UK’s Future Aircraft Carrier: Power at the Heart of the Electric Propulsion System
Roy Casson
GT 2008; 405-411doi:https://doi.org/10.1115/GT2008-50206
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Topics: Aircraft , Electric propulsion , Ships , Energy / power systems , Electricity (Physics) , Gas turbines , Power systems (Machinery) , Propulsion systems , Defense industry , Design
Analysis of Stall Precursors and Determination of Optimum Signal Processing Methods for an LM-2500 Gas Turbine
Knox T. Millsaps, Gustave C. Dahl, Daniel E. Caguiat, Jeffrey S. Patterson
GT 2008; 413-420doi:https://doi.org/10.1115/GT2008-50575
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Topics: Gas turbines , Signal processing , Pressure , Signals , Time series , Waves , Algorithms , Annulus , Compressors , Engines
LCAC Main Engine Installed Performance
Benjamin Canilang, David Zipkin
GT 2008; 421-428doi:https://doi.org/10.1115/GT2008-50639
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Topics: Computational fluid dynamics , Engines , Pressure , Data acquisition systems , Marine gas turbines , Statistical analysis , Temperature , Testing performance , Torque , Trains
Air Cushion Vehicle Turbofan Propulsion Feasibility Analysis
David Zipkin, Lance Shappell
GT 2008; 429-437doi:https://doi.org/10.1115/GT2008-50645
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Topics: Propulsion , Turbofans , Vehicles
Gas Turbine Electric Start System (GT-ESS) Ship Integration
Martin Quin˜ones, Saurabh Deshmukh
GT 2008; 439-446doi:https://doi.org/10.1115/GT2008-50708
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Topics: Gas turbines , Ships , Engines , Machinery , Navy , Lubrication , Design , Packaging , Propulsion , Warfare
The Performance Evaluation of Variations of Diffuser Geometry of the Centrifugal Compressor in a Marine Engine (70MW) Turbocharger
Hong-Won Kim, Jong-Il Park, Seung-Hyup Ryu, Seong-Wook Choi, Sang-Hak Ghal
GT 2008; 447-454doi:https://doi.org/10.1115/GT2008-50751
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Topics: Compressors , Diffusers , Engines , Geometry , Performance evaluation , Turbochargers , Impellers , Computational fluid dynamics , Flow (Dynamics) , Pressure
Marine Gas Turbine Propulsion System Controls: An Integrated Approach
Joseph H. McMurry, Thomas B. Keefer, Lorenzo Previsani
GT 2008; 455-461doi:https://doi.org/10.1115/GT2008-50858
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Topics: Marine gas turbines , Propulsion systems , Design , Gas turbines , Hardware , Control systems , Simulation , Testing , Computer programming , Engineering disciplines
U.S. Navy Experience With SSS (Synchro-Self-Shifting) Clutches
Morgan L. Hendry, B. Michael Zekas
GT 2008; 463-474doi:https://doi.org/10.1115/GT2008-51338
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Topics: Navy , Ships , Design , Electric motors , Gas turbines , Gears , Generators , Propellers , Propulsion , Propulsion systems
Shipboard Mission Readiness Assessment
Thomas C. Cook, Scott G. Valentine
GT 2008; 475-484doi:https://doi.org/10.1115/GT2008-51373
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Topics: Computer software , Electricity (Physics) , Gas turbines , Health systems , Maintenance , Military systems , Navy , Propulsion , Sensors , Ships
CBM Integrated Maintenance Scheduler
Simon Jessop, Scott Valentine, Michael Roemer
GT 2008; 485-492doi:https://doi.org/10.1115/GT2008-51375
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Topics: Maintenance , Ships

Oil and Gas Applications

Degradation Effects on Industrial Gas Turbines
Rainer Kurz, Klaus Brun, Meron Wollie
GT 2008; 493-504doi:https://doi.org/10.1115/GT2008-50020
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Topics: Compressors , Condition monitoring , Engines , Gas turbines , Industrial gases , Performance characterization , Stress , Turbines
Influence of Blade Deterioration on Compressor and Turbine Performance
M. Morini, M. Pinelli, P. R. Spina, M. Venturini
GT 2008; 505-516doi:https://doi.org/10.1115/GT2008-50043
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Topics: Blades , Compressors , Turbines , Damage , Erosion , Gas turbines , Machine components , Nozzles , Rotors , Stators
API 617’s Requirements on Centrifugal Compressors: A Purchaser’s Viewpoint
Mahdi Taherimoghaddam
GT 2008; 517-522doi:https://doi.org/10.1115/GT2008-50138
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Topics: American Petroleum Institute , Compressors , Design , Petrochemicals
The Demonstration and Efficacy of the 1 Meter Sound Level Criteria for Gas Turbines in Offshore Installations
Jeff Lotton
GT 2008; 523-527doi:https://doi.org/10.1115/GT2008-50148
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Topics: Gas turbines , Offshore installations , Noise (Sound)
PGT25+G4 Gas Turbine Development, Validation and Operating Experience
Roger De Meo, Michele D’Ercole, Alessandro Russo, Francesco Gamberi, Francesco Gravame, David Mucz
GT 2008; 529-538doi:https://doi.org/10.1115/GT2008-50159
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Topics: Gas turbines , Energy generation , Generators , Mechanical drives , Turbines , Compression , Control systems , Engines , Machinery , Pipelines
The Development of Centrifugal Compressor Impeller
C. Xu, R. S. Amano
GT 2008; 539-544doi:https://doi.org/10.1115/GT2008-50200
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Topics: Compressor impellers , Compressors , Impellers , Turbochargers , Design , Machinery , High pressure (Physics) , Pressure , Product design
Impact of Continuous Inlet Fogging and Overspray Operation on GE 5002 Gas Turbine Life and Performance
Klaus Brun, Luis Eduardo Gonzalez, John P. Platt
GT 2008; 545-554doi:https://doi.org/10.1115/GT2008-50207
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Topics: Gas turbines , Rotors , Blades , Clearances (Engineering) , Corrosion , Erosion , Water , Compressors , Filters , Inspection
Clearance Reduction and Performance Gain Using Abradable Material in Gas Turbines
Iacopo Giovannetti, Manuele Bigi, Massimo Giannozzi, Dieter R. Sporer, Filippo Cappuccini, Marco Romanelli
GT 2008; 555-563doi:https://doi.org/10.1115/GT2008-50290
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Topics: Abrasion , Blades , Clearances (Engineering) , Design , Energy efficiency , Erosion , Gas turbines , Gases , High temperature , Industrial gases
Development of a Guideline for the Design of Surge Control Systems
Marybeth G. Nored, Klaus Brun, Rainer Kurz
GT 2008; 565-573doi:https://doi.org/10.1115/GT2008-50380
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Topics: Control systems , Design , Surges , Compressors , Instrumentation , Machinery , Pipes , Valves
An Experimental Investigation of Airfoil Performance in Wet Gas Flow
Trond G. Gru¨ner, Lars E. Bakken, Lars Brenne, Tor Bjo̸rge
GT 2008; 575-584doi:https://doi.org/10.1115/GT2008-50483
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Topics: Airfoils , Boundary layers , Compressors , Gas flow , Separation (Technology) , Waves
Analysis of the Effects of Pulsations on the Operational Stability of Centrifugal Compressors in Mixed Reciprocating and Centrifugal Compressor Stations
Klaus Brun, Rainer Kurz
GT 2008; 585-597doi:https://doi.org/10.1115/GT2008-50540
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Topics: Compressors , Stability , Design , Compression , Errors , Machinery , Pipes , Piping systems , Pressure , Transients (Dynamics)
Time-Frequency Analysis of Transient Vibrations to Improve Turbo-Compressor Start-Up
Juan C. Jauregui, Oscar Gonzalez, Eduardo Rubio
GT 2008; 599-606doi:https://doi.org/10.1115/GT2008-50572
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Topics: Compressors , Time-frequency analysis , Transients (Dynamics) , Turbochargers , Vibration , Signals , Dynamic stability , Flaw detection , Fourier transforms , Instrumentation
An Advanced Optimization Procedure for the Thermodynamic Selection of Centrifugal Compressors Stages
Simone Pazzi, Marco Giachi, Ashraf Al Musleh, Massimo Pusceddu, Nidal Ghizawi
GT 2008; 607-615doi:https://doi.org/10.1115/GT2008-50702
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Topics: Compressors , Optimization , Flanges , Carbon capture and storage , Machinery , Optimization algorithms , Rotors
Measurement Error Influence on Gas Turbine Operability for Condition-Based Maintenance and Reliability/Availability Improvement
Ever Avriel Fadlun, Ilaria Michelizzi, Marco De Iaco
GT 2008; 617-625doi:https://doi.org/10.1115/GT2008-50749
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Topics: Errors , Gas turbines , Maintenance , Reliability , Firing , Compressors , Temperature , Instrumentation , Machinery , Pressure measurement
Aeroderivative Gas Turbines for LNG Liquefaction Plants: Part 1—The Importance of Thermal Efficiency
Cyrus Meher-Homji, Dave Messersmith, Tim Hattenbach, Jim Rockwell, Hans Weyermann, Karl Masani
GT 2008; 627-634doi:https://doi.org/10.1115/GT2008-50839
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Topics: Gas turbines , Liquefaction , Liquefied natural gas , Thermal efficiency , Engines , Emissions , Motors , Stress
Aeroderivative Gas Turbines for LNG Liquefaction Plants: Part 2—World’s First Application and Operating Experience
Cyrus Meher-Homji, Dave Messersmith, Tim Hattenbach, Jim Rockwell, Hans Weyermann, Karl Masani
GT 2008; 635-644doi:https://doi.org/10.1115/GT2008-50840
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Topics: Gas turbines , Liquefaction , Liquefied natural gas , Compressors , Engines , Design , Methane , Testing , Thermal efficiency
Novel Concepts for the Compression of Large Volumes of Carbon Dioxide
J. Jeffrey Moore, Marybeth G. Nored
GT 2008; 645-653doi:https://doi.org/10.1115/GT2008-50924
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Topics: Carbon dioxide , Compression , Integrated gasification combined cycle power stations
Remaining Life Assessment of Power Turbine Disks
H. Jin, P. Lowden, R. Pistor
GT 2008; 655-660doi:https://doi.org/10.1115/GT2008-51010
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Topics: Disks , Remaining life assessment , Turbines
Wet Gas Performance of a Single Stage Centrifugal Compressor
O̸yvind Hundseid, Lars E. Bakken, Trond G. Gru¨ner, Lars Brenne, Tor Bjo̸rge
GT 2008; 661-670doi:https://doi.org/10.1115/GT2008-51156
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Topics: Compressors , Compression , Flow (Dynamics) , Condensed matter , Design , Fluid dynamics , Gas compressors , Machinery , Multiphase flow , North Sea
Prospects for Sub Sea Wet Gas Compression
Lars Brenne, Tor Bjo̸rge, Lars E. Bakken, O̸yvind Hundseid
GT 2008; 671-677doi:https://doi.org/10.1115/GT2008-51158
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Topics: Compression , Seas , Compressors , Testing , Fluids , Gas compressors , Condensed matter , Impellers , Licensing , Stress
Dynamic Analysis of Compressor Trips in the Sno̸hvit LNG Refrigerant Circuits
Ingrid Schjo̸lberg, Morten Hyllseth, Gunleiv Skofteland, Ha˚vard Nordhus
GT 2008; 679-688doi:https://doi.org/10.1115/GT2008-51235
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Topics: Circuits , Compressors , Dynamic analysis , Liquefied natural gas , Refrigerants , Surges , Control systems , Design , Engineering simulation , Inertia (Mechanics)
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