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ASME 1996 International Gas Turbine and Aeroengine Congress and Exhibition

June 10–13, 1996

Birmingham, UK

Conference Sponsors:

ISBN:

978-0-7918-7876-7

In This Volume

Manufacturing Materials and Metallurgy (19)
Ceramics (29)
Structures and Dynamics (63)
Controls, Diagnostics and Instrumentation (28)
Education (19)
General (1)

Volume 5: Manufacturing Materials and Metallurgy; Ceramics; Structures and Dynamics; Controls, Diagnostics and Instrumentation; Education; General

Manufacturing Materials and Metallurgy

Joining of Wrought Ni-Base Combustor Alloys

A. M. Ritter, M. R. Jackson, N. Abuaf, M. A. Lacey, A. S. Feitelberg, P. Lang

GT 1996; V005T12A001https://doi.org/10.1115/96-GT-219

Abstract

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Topics: Alloys , Combustion chambers , Joining , Cooling , Film cooling , Scanning electron microscopy , Bonding , Coolants , Cross section (Physics) , Ductility

Nondestructive Evaluation of Locally Repaired Coating for Gas Turbine Blades

Y. Shen, N. Pietranera, U. Guerreschi, S. Corcoruto, E. Gandini

GT 1996; V005T12A002https://doi.org/10.1115/96-GT-220

Abstract

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Topics: Blades , Coating processes , Coatings , Gas turbines , Nondestructive evaluation , Plasmas (Ionized gases) , Sprays , Acoustics , Adhesion , Surface roughness

INCONEL Alloy 783: An Oxidation Resistant, Low Expansion Superalloy for Gas Turbine Applications

K. A. Heck, J. S. Smith, R. Smith

GT 1996; V005T12A003https://doi.org/10.1115/96-GT-380

Abstract

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Topics: Alloys , Gas turbines , Oxidation , Superalloys , Temperature , Thermal expansion , Turbines , Aluminum , Blades , Cracking (Materials)

Development of a Cobalt Base Superalloy for Heavy Duty Gas Turbine Nozzles

M. Sato, Y. Kobayashi, H. Matsuzaki, K. Shimomura, T. Shibata, S. Nakamura, Y. Fukui, K. Wada

GT 1996; V005T12A004https://doi.org/10.1115/96-GT-390

Abstract

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Topics: Cobalt , Gas turbines , Nozzles , Superalloys , Alloys , Corrosion resistance , Creep , Corrosion , Fatigue , Temperature

Coating Characterization and Evaluation of Directionally Solidified CM 186 LC^® and Single Crystal CMSX-4^®

Paul S. Korinko, Michael J. Barber, Malcolm Thomas

GT 1996; V005T12A005https://doi.org/10.1115/96-GT-426

Abstract

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Topics: Coatings , Crystals , Oxidation , Corrosion , Alloys , Overlays (Materials engineering) , Testing , Weight (Mass)

High Strength Diffusion Braze Repair for Gas Turbine Components

Roger D. Wustman, Leonard M. Hampson, Jeffrey S. Smith, Marc E. Suneson

GT 1996; V005T12A006https://doi.org/10.1115/96-GT-427

Abstract

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Topics: Diffusion (Physics) , Gas turbines , Maintenance , Cycles , Base metals , Engines , Fracture (Materials) , Mechanical properties , Nozzles , Rupture

Engine Test Experience With HVOF WC-Co Coated Fan Blade Dampers

Lars Pejryd, Jan Wigren

GT 1996; V005T12A007https://doi.org/10.1115/96-GT-435

Abstract

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Topics: Blades , Dampers , Engines , Coatings , Coating processes , Jet engines , Low cycle fatigue , Residual stresses , Aerospace industry , Cracking (Materials)

Characterization and Performance Evaluation of Pack Cementation and Chemical Vapor Deposition Platinum Aluminide Coatings

Zaher Mutasim, William Brentnall

GT 1996; V005T12A008https://doi.org/10.1115/96-GT-436

Abstract

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Topics: Chemical vapor deposition , Coatings , Performance evaluation , Platinum , Corrosion protection , Electroplating , Engines , High temperature , Industrial gases , Oxidation

Surface Optimisation by Engineering the Stress and Roughness

Peter O’Hara

GT 1996; V005T12A009https://doi.org/10.1115/96-GT-451

Abstract

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Topics: Optimization , Stress , Surface roughness , Damage , Compressive stress , Corrosion , Fatigue strength , Finishes , Flow (Dynamics) , Shot peening

The Microstructure, Mechanical Properties and Coatability of Diffusion Brazed CMSX-4 Single Crystal

Warren M. Miglietti, Ros C. Pennefather

GT 1996; V005T12A010https://doi.org/10.1115/96-GT-467

Abstract

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Topics: Crystals , Diffusion (Physics) , Mechanical properties , Brazing , Coating processes , Coatings , Rupture , Stress , Superalloys , Turbine blades

Thermocyclic Behavior of Variously Stabilized EB-PVD Thermal Barrier Coatings

U. Schulz, K. Fritscher, M. Peters

GT 1996; V005T12A011https://doi.org/10.1115/96-GT-488

Abstract

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Topics: Thermal barrier coatings , Ceramics , Evaporation , Vapor pressure , Cathode ray oscilloscopes , Chemistry , Coatings , Combustion gases , Electron beams , Furnaces

SNECMA Experience With Cost Effective DS Airfoil Technology Applied Using CM 186 LC^® Alloy

F. Caruel, S. Bourguignon, B. Lallement, S. Fargeas, A. DeBussac, K. Harris, G. L. Erickson, J. B. Wahl

GT 1996; V005T12A012https://doi.org/10.1115/96-GT-493

Abstract

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Topics: Airfoils , Alloys , Crystals , Brazing , Coating processes , Coatings , Creep , Databases , Engines , High temperature

In-Service Degradation of Corrosion Resistant Coatings

Narayana S. Cheruvu, Thomas J. Carr, John Dworak, James Coyle

GT 1996; V005T12A013https://doi.org/10.1115/96-GT-499

Abstract

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Topics: Coatings , Corrosion , Cooling , Blades , Design , Oxidation , Service life (Equipment) , Temperature , Metals , Particle size

A Comparison of HVOF and LPPS Applied MCrAlY Coating

Hans van Esch, Wayne Greaves

GT 1996; V005T12A014https://doi.org/10.1115/96-GT-500

Abstract

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Topics: Coatings , Chemistry , Oxidation , Oxygen , Plasmas (Ionized gases) , Porosity , Pressure , Sprays , Yttrium

Internal Damage Accumulation and Imminent Failure of an Industrial Gas Turbine Blade: Interpretation and Implications

M. I. Wood

GT 1996; V005T12A015https://doi.org/10.1115/96-GT-510

Abstract

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Topics: Damage , Failure , Industrial gases , Turbine blades , Blades , Cooling , Cracking (Materials) , Creep , Fracture (Process) , Oxidation

Oxidation Resistance and Critical Sulfur Content of Single Crystal Superalloys

James L. Smialek

GT 1996; V005T12A016https://doi.org/10.1115/96-GT-519

Abstract

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Topics: Crystals , Oxidation , Sulfur , Superalloys , Adhesion , Annealing , Desulfurization , Hydrogen , Spallation (Nuclear physics)

GTD111 Alloy Material Study

Joseph A. Daleo, James R. Wilson

GT 1996; V005T12A017https://doi.org/10.1115/96-GT-520

Abstract

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Topics: Alloys , Maintenance , Creep , Fracture (Materials) , Fracture (Process) , Heat , Nickel , Rupture , Superalloys , Temperature

Platinum Substitutes and Two-Phase-Glass Overlayers as Low Cost Alternatives to Platinum Aluminide Coatings

B. Durga Prasad, Sankara N. Sankaran, Karl E. Wiedemann, David E. Glass

GT 1996; V005T12A018https://doi.org/10.1115/96-GT-521

Abstract

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Topics: Coatings , Glass , Platinum , Oxidation , Corrosion , Nickel , Palladium , Platinum group metals , Sol-gel processing

HP/HVOF as a Low Cost Substitute for LPPS Turbine MCrAlY Coatings

Ronald J. Honick, Jr., Richard Thorpe

GT 1996; V005T12A019https://doi.org/10.1115/96-GT-525

Abstract

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Topics: Coatings , Turbines , Gas turbines , Plasmas (Ionized gases) , Sprays , Aircraft , Cathode ray oscilloscopes , Corrosion , Electron beams , Energy generation

Ceramics

A New Approach for a Low-Cooled Ceramic Nozzle Vane

C. Gutmann, A. Schulz, S. Wittig

GT 1996; V005T13A001https://doi.org/10.1115/96-GT-232

Abstract

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Topics: Ceramics , Nozzles , Stress , Design , Optimization , Failure , Gas flow , Gas turbines , Geometry , Industrial ceramics

European Standardisation Efforts on Fibre-Reinforced Ceramic Matrix Composites

Marc Steen

GT 1996; V005T13A002https://doi.org/10.1115/96-GT-269

Abstract

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Topics: Ceramic matrix composites , Fibers , Design , Industrial ceramics , Testing , Cycles , Thermal properties

ASTM Standards for Monolithic and Composite Advanced Ceramics: Industrial, Governmental and Academic Cooperation

Michael G. Jenkins, George D. Quinn

GT 1996; V005T13A003https://doi.org/10.1115/96-GT-270

Abstract

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Topics: ASTM standards , Ceramics , Composite materials , ASTM International , Engineering standards , Governments , Heat engines , Mechanical properties , Reliability

The Thermal-Mechanical Behavior of Selected Si₃N₄ and SiC Ceramics

Norman L. Hecht, Hongsang Rho, Nora R. Osborne, Dale E. McCullum, Steven M. Goodrich

GT 1996; V005T13A004https://doi.org/10.1115/96-GT-271

Abstract

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Topics: Silicon carbide ceramics , Mechanical behavior , Temperature , Chemistry , Failure mechanisms , Fatigue , Fracture toughness , Heat engines , Service life (Equipment) , Stress

Surface Temperature Measurement of Thermal Barrier Coatings Using Infrared Pyrometry

James A. Ruud, Robert D. Lillquist, Dennis M. Gray

GT 1996; V005T13A005https://doi.org/10.1115/96-GT-281

Abstract

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Topics: Temperature measurement , Thermal barrier coatings , Temperature gradient , Temperature , Flames , Metals , Natural gas

The Effect of Thermal Aging on the Thermal Conductivity of Plasma Sprayed and EB-PVD Thermal Barrier Coatings

Ralph B. Dinwiddie, Stephen C. Beecher, Wallace D. Porter, Ben A. Nagaraj

GT 1996; V005T13A006https://doi.org/10.1115/96-GT-282

Abstract

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Topics: Plasmas (Ionized gases) , Thermal barrier coatings , Thermal conductivity , Coatings , Density , Electrons , Engines , Fuel efficiency , High temperature , Plasma spraying

The Effects of Environmental Contaminants on Industrial Gas Turbine Thermal Barrier Coatings

H. E. Eaton, N. S. Bornstein, J. T. DeMasi-Marcin

GT 1996; V005T13A007https://doi.org/10.1115/96-GT-283

Abstract

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Topics: Industrial gases , Thermal barrier coatings , Turbines , Gas turbines , Aircraft , Ceramics , Chemical properties , Ferrosilicon , Magnesium (Metal) , Military systems

Applications of Continuous Fiber Reinforced Ceramic Composites in Military Turbojet Engines

Patrick Spriet, Georges Habarou

GT 1996; V005T13A008https://doi.org/10.1115/96-GT-284

Abstract

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Topics: Composite materials , Engines , Fiber reinforced ceramics , Military systems , Turbojets , Ceramic matrix composites , Weight (Mass) , Alloys , Design , Design methodology

Role of Environmental Deposits in Spallation of Thermal Barrier Coatings on Aeroengine and Land-Based Gas Turbine Hardware

Marcus P. Borom, Curtis A. Johnson, Louis A. Peluso

GT 1996; V005T13A009https://doi.org/10.1115/96-GT-285

Abstract

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Topics: Gas turbines , Hardware , Spallation (Nuclear physics) , Thermal barrier coatings , Engines , Coating processes , Coatings , Combustion chambers , Compressive stress , Delamination

Isothermal and Cyclic Oxidation of an Air Plasma-Sprayed Thermal Barrier Coating System

J. Allen Haynes, Mattison K. Ferber, Wallace D. Porter, E. Douglas Rigney

GT 1996; V005T13A010https://doi.org/10.1115/96-GT-286

Abstract

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Topics: Oxidation , Plasmas (Ionized gases) , Thermal barrier coatings , Coatings , Durability , Experimental methods , Furnaces , High temperature , Testing

Silicon Nitride Components for AGATA: A European Gas Turbine for Hybrid Vehicles

Robert Lundberg, Jan Adlerborn

GT 1996; V005T13A011https://doi.org/10.1115/96-GT-287

Abstract

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Topics: Gas turbines , Hybrid electric vehicles , Silicon nitride ceramics , Combustion chambers , Turbines , Wheels , Automobiles , Emissions , Heat exchangers , Industrial ceramics

Development of Ceramic Turbine Rotors and Nozzles for the 100kW Automotive Ceramic Gas Turbine Program

Satoru Yamada, Keiichiro Watanabe, Massaki Masuda

GT 1996; V005T13A012https://doi.org/10.1115/96-GT-295

Abstract

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Topics: Automotive gas turbines , Ceramics , Nozzles , Rotors , Turbines , Industrial ceramics , Manufacturing , Petroleum , Silicon nitride ceramics

Cost Effective Manufacturing Methods for Structural Ceramic Matrix Composite (CMC) Components

H. Wurtinger, A. Mühlratzer

GT 1996; V005T13A013https://doi.org/10.1115/96-GT-296

Abstract

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Topics: Ceramic matrix composites , Manufacturing , Fatigue , High temperature , Mass production , Polymers , Pressure gradient , Pyrolysis , Temperature , Thermal shock

Experimental Assessment of the Emissions Benefits of a Ceramic Gas Turbine Combustor

K. O. Smith, A. Fahme

GT 1996; V005T13A014https://doi.org/10.1115/96-GT-318

Abstract

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Topics: Ceramics , Combustion chambers , Emissions , Gas turbines , Cooling , Metals , Nitrogen oxides , Testing , Air flow , Fuel injectors

Ceramics for ATS Industrial Turbines

Richard Wenglarz, Sy Ali, Abbie Layne

GT 1996; V005T13A015https://doi.org/10.1115/96-GT-319

Abstract

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Topics: Ceramics , Turbines , Alloys , Gas turbines , Combustion , Cooling , Cycles , Engines , Flow (Dynamics) , Melting point

Standards for Advanced Ceramics and Pre-Standardization Research: A Review

Roger Morrell

GT 1996; V005T13A016https://doi.org/10.1115/96-GT-320

Abstract

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Topics: Ceramics , ASTM International , Maintenance , Testing

International Standardization Activities for Fine Ceramics: Status of ISO/TC 206 on Fine Ceramics

Takashi Kanno

GT 1996; V005T13A017https://doi.org/10.1115/96-GT-321

Abstract

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Topics: Ceramics , Coatings , Composite materials

A Technique to Achieve Uniform Stress Distribution in Compressive Creep Testing of Advanced Ceramics at High Temperatures

Kenneth C. Liu, Christopher O. Stevens, Charles R. Brinkman, Nicholas E. Holshauser

GT 1996; V005T13A018https://doi.org/10.1115/96-GT-341

Abstract

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Topics: Ceramics , Creep , High temperature , Stress concentration , Testing , Stress , Trains , Compression , Design , Manufacturing

Fatigue Strength as a Function of Preloading in Dynamic Fatigue Testing of Glass and Ceramics

Sung R. Choi, Jonathan A. Salem, John P. Gyekenyesi

GT 1996; V005T13A019https://doi.org/10.1115/96-GT-342

Abstract

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Topics: Ceramics , Fatigue strength , Fatigue testing , Glass , Fatigue , Failure , Fracture (Materials) , Temperature , Testing , Water

Structural Design and High Pressure Test of a Ceramic Combustor for 1500°C Class Industrial Gas Turbine

I. Yuri, T. Hisamatsu, K. Watanabe, Y. Etori

GT 1996; V005T13A020https://doi.org/10.1115/96-GT-346

Abstract

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Topics: Ceramics , Combustion chambers , High pressure (Physics) , Industrial gases , Structural design , Turbines , Combustion , Fracture toughness , Fuels , Stress

Progress in Fabrication of Silicon Nitride Structural Components for Turbomachinery Applications

John P. Pollinger

GT 1996; V005T13A021https://doi.org/10.1115/96-GT-347

Abstract

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Topics: Manufacturing , Silicon nitride ceramics , Structural elements (Construction) , Turbomachinery , Turbines , Aircraft , Blades , Ceramics , Industrial ceramics , Injection molding

Ceramic Matrix Composites Application in Automotive Gas Turbines

Hiroshi Kaya, Takao Izumi

GT 1996; V005T13A022https://doi.org/10.1115/96-GT-348

Abstract

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Topics: Automotive gas turbines , Ceramic matrix composites , Silicon , Silicon nitride ceramics , Testing , Ceramics , Engines , High temperature , Manufacturing , Particle collisions

Creep Performance of Candidate SiC and Si₃N₄ Materials for Land-Based, Gas Turbine Engine Components

Andrew A. Wereszczak, Timothy P. Kirkland

GT 1996; V005T13A023https://doi.org/10.1115/96-GT-385

Abstract

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Topics: Creep , Gas turbines , Stress , Failure , Fatigue , Tension , Ceramics , Fracture (Materials) , Rupture , Combustion chambers

Development and Fabrication of Ceramic Gas Turbine Components

Koichi Tanaka, Sazo Tsuruzono, Toshifumi Kubo, Makoto Yoshida

GT 1996; V005T13A024https://doi.org/10.1115/96-GT-446

Abstract

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Topics: Ceramics , Gas turbines , Manufacturing , Temperature , Design , Rotors , Sintering , Turbines , Engines , Generators

Evaluation of Commercial Coatings on MarM-002, IN-939 and CM-247 Substrates

J. G. Goedjen, G. P. Wagner

GT 1996; V005T13A025https://doi.org/10.1115/96-GT-458

Abstract

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Topics: Coatings , Cathode ray oscilloscopes , Electron beams , Oxidation , Plasmas (Ionized gases) , Turbines , Vapor deposition , Combustion , Cooling , Failure mechanisms

Development of Ceramic Stator Vane for 1500°C Class Gas Turbine

Takashi Machida, Masato Nakayama, Katsuo Wada, Tooru Hisamatsu, Isao Yuri, Kazunori Watanabe

GT 1996; V005T13A026https://doi.org/10.1115/96-GT-459

Abstract

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Topics: Ceramics , Gas turbines , Stators , Cooling , Industrial gases , Metals , Reliability , Shells , Turbines , Brittleness

Ceramic Stationary Gas Turbine Development Program: Third Annual Summary

Mark van Roode, William D. Brentnall, Kenneth O. Smith, Bryan D. Edwards, Leslie J. Faulder, Paul F. Norton

GT 1996; V005T13A027https://doi.org/10.1115/96-GT-460

Abstract

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Topics: Ceramics , Gas turbines , Engines , Testing , Combustion chambers , Emissions , Industrial ceramics , Blades , Composite materials , Manufacturing

Time and Cycle Dependence in High Temperature Fatigue of Ceramic Matrix Composites

Marc Steen, José-Lorenzo Vallés

GT 1996; V005T13A028https://doi.org/10.1115/96-GT-532

Abstract

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Topics: Ceramic matrix composites , Cycles , Fatigue , High temperature , Stress , Creep , Fibers , Composite materials , Damage , Failure

Thermal Strains and Their Effect on the Life of Ceramic Matrix Composite Components in Gas Turbine Engines

Michael J. L. Percival, Colin P. Beesley

GT 1996; V005T13A029https://doi.org/10.1115/96-GT-533

Abstract

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Topics: Ceramic matrix composites , Gas turbines , Stress , Damage , Design , Cycles , Metalwork , Service life (Equipment) , Temperature , Temperature gradient

Structures and Dynamics

Vibration Analysis of Rotor - Coupling - Bearing System With Misaligned Shafts

A. Sreenivasa Rao, A. S. Sekhar

GT 1996; V005T14A001https://doi.org/10.1115/96-GT-012

Abstract

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Topics: Bearings , Rotors , Vibration analysis , Machinery , Eigenvalues , Finite element analysis

Low Speed Balancing of Flexible Rotors Considering Influences of Running Speeds

S.-G. Tan, X.-X. Wang

GT 1996; V005T14A002https://doi.org/10.1115/96-GT-017

Abstract

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Topics: Rotors

Investigation of Hydrodynamic Forces on Rotating and Whirling Centrifugal Pump Impellers

R. Fongang, J. Colding-Jørgensen, R. Nordmann

GT 1996; V005T14A003https://doi.org/10.1115/96-GT-018

Abstract

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Topics: Centrifugal pumps , Fluid-dynamic forces , Impellers , Whirls , Fluids , Rotors , Vortices , Flow (Dynamics) , Pumps

An Improved Epicyclic Gearbox for Reduced and Controllable Sub-Synchronous Vibrations in Gas Turbogenerator Applications

A. K. Rakhit

GT 1996; V005T14A004https://doi.org/10.1115/96-GT-019

Abstract

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Topics: Mechanical drives , Turbogenerators , Vibration , Bearings , Design , Turbines , Service life (Equipment) , Testing

Free Vibration of a Rotating Disk–Blade Coupled System With Shrouds

Yukinori Kobayashi, Gen Yamada, Takahiro Tomioka

GT 1996; V005T14A005https://doi.org/10.1115/96-GT-022

Abstract

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Topics: Blades , Free vibrations , Rotating disks , Disks , Vibration , Mode shapes , Polynomials , Rotation , Springs

Unbalance Response of a Multi-Mode Rotor Supported on Short Squeeze Film Dampers

R. Youssef, A. El-Shafei

GT 1996; V005T14A006https://doi.org/10.1115/96-GT-023

Abstract

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Topics: Dampers , Rotors , Algorithms , Differential equations , Polynomials , Steady state , Algebra , Design , Manufacturing , Modal analysis

Blade Vibrations of a High Speed Compressor Blisk-Rotor: Numerical Resonance Tuning and Optical Measurements

J. Frischbier, G. Schulze, M. Zielinski, G. Ziller, C. Blaha, D. K. Hennecke

GT 1996; V005T14A007https://doi.org/10.1115/96-GT-024

Abstract

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Topics: Blades , Compressors , Optical measurement , Resonance , Rotors , Vibration , Optimization , Vibration measurement , Design , Design engineering

Numerical Investigation of the Clocking Effects in a Multistage Turbine

Frank Eulitz, Karl Engel, Hermann Gebing

GT 1996; V005T14A008https://doi.org/10.1115/96-GT-026

Abstract

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Topics: Turbines , Stators , Flow (Dynamics) , Rotors , Turbulence , Entropy , Wakes

An Analysis of the Aeroelastic Behaviour of a Typical Fan-Blade With Emphasis on the Flutter Mechanism

J. G. Marshall, M. Imregun

GT 1996; V005T14A009https://doi.org/10.1115/96-GT-078

Abstract

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Topics: Blades , Flutter (Aerodynamics) , Aeroelasticity , Flow (Dynamics) , Boundary-value problems , Fluid structure interaction , Fluids , Geometry , NASA , Rotors

The Transfer Matrix–Component Mode Synthesis for Rotordynamic Analysis

Huang Taiping

GT 1996; V005T14A010https://doi.org/10.1115/96-GT-079

Abstract

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Topics: Compressors , Deflection , Degrees of freedom , Design , Finite element methods , Finite element model , Gas turbines , Rotors , Trains , Vibration

Experimental Investigation of a Single Stage Axial Flow Compressor With Controlled Diffusion Airfoils

S. Pieper, J. Schulte, A. Hoynacki, H. E. Gallus

GT 1996; V005T14A011https://doi.org/10.1115/96-GT-081

Abstract

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Topics: Airfoils , Axial flow , Diffusion (Physics) , Flow (Dynamics) , Design , Compressors , Rotors , Pressure , Inlet guide vanes , Stators

Friction Damping of Hollow Airfoils: Part I — Theoretical Development

J. H. Griffin, W.-T. Wu, Y. El-Aini

GT 1996; V005T14A012https://doi.org/10.1115/96-GT-109

Abstract

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Topics: Airfoils , Damping , Friction , Dampers , Cavities , Dynamic response , Engines , High cycle fatigue , Life cycle costing , Vibration

Friction Damping of Hollow Airfoils: Part II — Experimental Verification

Yehia M. El-Aini, Barry K. Benedict, Wen-Te Wu

GT 1996; V005T14A013https://doi.org/10.1115/96-GT-110

Abstract

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Topics: Airfoils , Damping , Friction , Engines , High cycle fatigue , Blades , Cavities , Dampers , Density , Durability

A Normalized Modal Eigenvalue Approach for Resolving Modal Interaction

Ming-Ta Yang, Jerry H. Griffin

GT 1996; V005T14A014https://doi.org/10.1115/96-GT-111

Abstract

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Topics: Eigenvalues , Engineering simulation , Geometry , Materials properties , Mode shapes , Simulation

Aerodynamically Induced Radial Forces in a Centrifugal Gas Compressor: Part 1 — Experimental Measurement

J. Jeffrey Moore, Michael B. Flathers

GT 1996; V005T14A015https://doi.org/10.1115/96-GT-120

Abstract

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Topics: Gas compressors , Bearings , Centrifugal pumps , Design , Pressure , Stress , Diffusers , Flow (Dynamics) , Fluid films , Impellers

Force Versus Current and Air Gap Calibration of a Double Acting Magnetic Thrust Bearing

D. O. Baun, R. L. Fittro, E. H. Maslen

GT 1996; V005T14A016https://doi.org/10.1115/96-GT-121

Abstract

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Topics: Calibration , Thrust bearings , Bearings , Actuators , Frequency response , Circuits , Currents , Design , Disks , Force measurement

The Acoustic Influence of Cell Depth on the Rotordynamic Characteristics of Smooth-Rotor/Honeycomb-Stator Annular Gas Seals

George F. Kleynhans, Dara W. Childs

GT 1996; V005T14A017https://doi.org/10.1115/96-GT-122

Abstract

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Topics: Acoustics , Honeycomb structures , Rotors , Stators , Transfer functions , Damping , Flow (Dynamics) , Rotordynamics , Stiffness , Algorithms

PI Control of HSFDs for Active Control of Rotor-Bearing Systems

J. P. Hathout, A. El-Shafei

GT 1996; V005T14A018https://doi.org/10.1115/96-GT-123

Abstract

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Topics: Bearings , Rotors , Transients (Dynamics) , Closed loop systems , Machinery , Vibration , Vibration control , Blades , Computers , Dampers

A Linearized Unsteady Aerodynamic Analysis for Real Blade Supersonic Cascades

Matthew D. Montgomery, Joseph M. Verdon, Sanford Fleeter

GT 1996; V005T14A019https://doi.org/10.1115/96-GT-124

Abstract

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Topics: Blades , Cascades (Fluid dynamics) , Flat plates , Shock (Mechanics) , Acoustics , Airfoils , Axial flow , Flow (Dynamics) , Numerical analysis , Numerical stability

The Maximum Factor by Which Forced Vibration of Blades Can Increase due to Mistuning

Denis S. Whitehead

GT 1996; V005T14A020https://doi.org/10.1115/96-GT-125

Abstract

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Topics: Blades , Vibration , Symmetry (Physics) , Damping , Excitation , Strips

Operational Experience With the World’s First Offshore Turboexpanders With Magnetic Bearings

Harald Underbakke

GT 1996; V005T14A021https://doi.org/10.1115/96-GT-218

Abstract

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Topics: Magnetic bearings , Ocean engineering , Machinery , Bearings , Electronic systems , Natural gas , North Sea , Polishing equipment

A Parametric Study of the Flutter Stability Characteristics of Turbomachine Cascades

H. Försching

GT 1996; V005T14A022https://doi.org/10.1115/96-GT-260

Abstract

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Topics: Flutter (Aerodynamics) , Stability , Turbomachinery , Blades , Cascades (Fluid dynamics) , Compressibility , Compressors , Damping , Degrees of freedom , Design

Analytical Solution of Whirl Speed and Mode Shape for Rotating Shafts

S. M. Yang, G. J. Sheu, C. D. Yang

GT 1996; V005T14A023https://doi.org/10.1115/96-GT-264

Abstract

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Topics: Mode shapes , Whirls , Boundary-value problems , Bearings , Inertia (Mechanics) , Vibration

A Probabilistic Creep Fatigue Computer Program for Structural Integrity Analysis

Harry R. Millwater, Graham G. Chell, David S. Riha

GT 1996; V005T14A024https://doi.org/10.1115/96-GT-265

Abstract

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Topics: Computer software , Creep , Fatigue , Stress , Failure , Fatigue analysis , Probability , Computers , Fatigue cracks , Finite element analysis

Predicting Gas Turbine Reliability to Assess Risks for Purchased Power Agreements

Wolfram Krockow

GT 1996; V005T14A025https://doi.org/10.1115/96-GT-266

Abstract

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Topics: Gas turbines , Reliability , Failure , Maintenance , Maintainability , Mathematics , Monte Carlo methods , Probability , Regulations , Sales

Reliability Analysis of Power Generation Gas Turbine Auxiliaries Using Structured Analytical Methods

Horst Rönnebeck

GT 1996; V005T14A026https://doi.org/10.1115/96-GT-267

Abstract

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Topics: Analytical methods , Energy generation , Event history analysis , Gas turbines , Reliability , Design , Feedback , Power generation reliability

Sensitivity Controlled Response Surface Approach for Reliability Based Design

Stefan Reh, Martin Scheu

GT 1996; V005T14A027https://doi.org/10.1115/96-GT-268

Abstract

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Topics: Design , Reliability , Response surface methodology , Failure , Finite element methods , Finite element model , Creep , Disks , Finite element analysis , Low cycle fatigue

Manufacturing Methods, Random Defects and Quality Assurance in Relation to the Reliability of Turbine Components

A. Mitchell

GT 1996; V005T14A028https://doi.org/10.1115/96-GT-306

Abstract

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Topics: Manufacturing , Quality control , Reliability , Turbine components , Alloys , Data acquisition , Fracture (Materials) , Process control , Production control , Steel

Numerical Investigation of the Unsteady Transonic 3D-Flow in Stator and Rotor Cascades With Oscillating Blades

Dieter Peitsch, Heinz E. Gallus, Stefan Weber

GT 1996; V005T14A029https://doi.org/10.1115/96-GT-307

Abstract

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Topics: Blades , Flow (Dynamics) , Rotors , Stators , Oscillations , Shock (Mechanics) , Airfoils , Compressors , Computers , Flutter (Aerodynamics)

Development of an Aeroelastic Code Based on an Euler / Navier-Stokes Aerodynamic Solver

Milind A. Bakhle, Rakesh Srivastava, George L. Stefko, J. Mark Janus

GT 1996; V005T14A030https://doi.org/10.1115/96-GT-311

Abstract

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Topics: Aeroelasticity , Blades , Cycles , Deformation , Dynamics (Mechanics) , Modeling , Propulsion , Stability , Turbochargers

Steady-State and Time-Dependent Experimental Results of a NACA-3506 Cascade in an Annular Channel

Heiko Körbächer, Albin Bölcs

GT 1996; V005T14A031https://doi.org/10.1115/96-GT-334

Abstract

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Topics: Cascades (Fluid dynamics) , Steady state , Blades , Damping , Compressors , Corners (Structural elements) , Mach number , Turbomachinery , Vibration

A Modal Coupling for Fluid and Structure Analyses of Turbomachine Flutter: Application to a Fan Stage

Francois Moyroud, Georges Jacquet-Richardet, Torsten Fransson

GT 1996; V005T14A032https://doi.org/10.1115/96-GT-335

Abstract

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Topics: Fluids , Flutter (Aerodynamics) , Turbomachinery , Blades , Computer software , Disks , Dynamic analysis , Dynamics (Mechanics) , Flow (Dynamics) , Fluid analyzers

Computation of the Unsteady Transonic Flow in Harmonically Oscillating Turbine Cascades Taking Into Account Viscous Effects

B. Grüber, V. Carstens

GT 1996; V005T14A033https://doi.org/10.1115/96-GT-338

Abstract

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Topics: Computation , Transonic flow , Turbines , Cascades (Fluid dynamics) , Blades , Design , Flow (Dynamics) , Pressure , Aeroelasticity , Computer simulation

Oscillating Cascade Aerodynamics at Large Mean Incidence

Daniel H. Buffum, Vincent R. Capece, Aaron J. King, Yehia M. El-Aini

GT 1996; V005T14A034https://doi.org/10.1115/96-GT-339

Abstract

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Topics: Aerodynamics , Cascades (Fluid dynamics) , Airfoils , Flow (Dynamics) , Blades , Bubbles , Mach number , Oscillations , Pressure , Pressure measurement

Validation of a Nonlinear Unsteady Aerodynamic Simulator for Vibrating Blade Rows

Timothy C. Ayer, Joseph M. Verdon

GT 1996; V005T14A035https://doi.org/10.1115/96-GT-340

Abstract

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Topics: Blades , Shock (Mechanics) , Transonic flow , Cascades (Fluid dynamics) , Displacement , Energy transformation , Fluids , Flutter (Aerodynamics) , Pressure , Stress

The Effect of Misalignment on Rotor Vibrations

Jorgen L. Nikolajsen

GT 1996; V005T14A036https://doi.org/10.1115/96-GT-373

Abstract

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Topics: Bearings , Damping , Finite element methods , Fluid films , Fluids , Redundancy (Engineering) , Rotor vibration , Rotors , Stability , Steady state

Unsteady Flow in Oscillating Turbine Cascade: Part 1 — Linear Cascade Experiment

L. He

GT 1996; V005T14A037https://doi.org/10.1115/96-GT-374

Abstract

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Topics: Cascades (Fluid dynamics) , Turbines , Unsteady flow , Bubbles , Pressure , Separation (Technology) , Blades , Flow (Dynamics) , Suction , Computational methods

Unsteady Flow in Oscillating Turbine Cascade: Part 2 — Computational Study

L. He

GT 1996; V005T14A038https://doi.org/10.1115/96-GT-375

Abstract

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Topics: Cascades (Fluid dynamics) , Turbines , Unsteady flow , Bubbles , Flow separation , Blades , Turbulence , Boundary layers , Computation , Computational methods

Inlet Distortion Generated Forced Response of a Low Aspect Ratio Transonic Fan

Steven R. Manwaring, Douglas C. Rabe, Christopher B. Lorence, Aspi R. Wadia

GT 1996; V005T14A039https://doi.org/10.1115/96-GT-376

Abstract

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Topics: Acoustics , Aerodynamics , Airfoils , Blades , Boundary layers , Flow (Dynamics) , Pressure , Pressure transducers , Resonance , Shock (Mechanics)

The Effect of Squeeze Film Damper Parameters on the Unbalance Response and Stability of a Flexible Rotor

F. Chu, R. Holmes

GT 1996; V005T14A040https://doi.org/10.1115/96-GT-377

Abstract

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Topics: Dampers , Rotors , Stability , Damping , Manufacturing , Vibration , Bearings , Centrifugal pumps , Delays , Limit cycles

Experience in Full Load Testing Natural Gas Centrifugal Compressors for Rotordynamics Improvements

Alain Gelin, Jean-Marc Pugnet, Daniel Bolusset, Patrick Friez

GT 1996; V005T14A041https://doi.org/10.1115/96-GT-378

Abstract

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Topics: Compressors , Natural gas , Rotordynamics , Stress , Testing , Bearings , Rotors , Vibration , Damping , Diffusers

Characterization of Laws of Friction in the Context of Engine Blade Dynamics

A. V. Srinivasan, D. Michael McFarland

GT 1996; V005T14A042https://doi.org/10.1115/96-GT-379

Abstract

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Topics: Blades , Dynamics (Mechanics) , Engines , Friction , Damping , Disks , Energy dissipation , Manufacturing , Simulation results

Thermal Stresses in Gas Turbine Exhaust Duct Expansion Joints

Michel D. Ninacs, Rodney P. Bell

GT 1996; V005T14A043https://doi.org/10.1115/96-GT-398

Abstract

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Topics: Ducts , Exhaust systems , Expansion joints , Gas turbines , Thermal stresses , Temperature , Crack propagation , Design , Leakage , Stress

Failure Analysis of a Burner Component

Kenneth L. Saunders, Brian P. Copley

GT 1996; V005T14A044https://doi.org/10.1115/96-GT-399

Abstract

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Topics: Failure analysis , Design , Stress , Combined heat and power , Creep , Exhaust systems , Steam , Temperature distribution , Combustion , Deformation

Periodic Aerodynamic Response of Axial Fan Rotor Blades to Nonuniform Inlet Flow Fields

M. Staiger, H. Stetter

GT 1996; V005T14A045https://doi.org/10.1115/96-GT-401

Abstract

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Topics: Blades , Flow (Dynamics) , Rotors , Pressure , Compressors , Chords (Trusses) , Pressure transducers , Probes , Wakes

A Rational Method for Optimizing Shroud Damping

J. H. Griffin, R. F. Labelle

GT 1996; V005T14A046https://doi.org/10.1115/96-GT-402

Abstract

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Topics: Blades , Computers , Damping , Design , Engines , Friction , Modeling , Particle spin , Resonance , Rotation

Modeling Support Effects: Finite Element and Experimental Modal Methods

Jonathan R. Buckles, Keith E. Rouch, John R. Baker

GT 1996; V005T14A047https://doi.org/10.1115/96-GT-403

Abstract

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Topics: Finite element analysis , Modeling , Resonance , Rotors , Dynamics (Mechanics) , Stability , Transfer functions , Turbomachinery

Stability Analysis of Symmetrical Rotor-Bearing Systems With Internal Damping Using Finite Element Method

L. Forrai

GT 1996; V005T14A048https://doi.org/10.1115/96-GT-407

Abstract

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Topics: Bearings , Damping , Finite element methods , Rotors , Stability , Symmetry (Physics) , Disks , Equations of motion , Vibration , Whirls

Torque and Power Loss in a Cylindrical Fluid-Lubricated Bearing/Rotor System

Paul Goldman, Alex Petchenev, Donald E. Bently, Agnes Muszynska

GT 1996; V005T14A049https://doi.org/10.1115/96-GT-408

Abstract

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Topics: Bearings , Fluids , Rotors , Torque , Cavitation , Computer simulation , Drag (Fluid dynamics) , Lubricants , Turbomachinery , Viscosity

A Novel Limit Distribution for the Analysis of Randomly Mistuned Bladed Disks

Marc P. Mignolet, Chung-Chih Lin

GT 1996; V005T14A050https://doi.org/10.1115/96-GT-414

Abstract

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Topics: Disks , Density , Probability , Resonance , Blades , Reliability , Steady state , Stiffness

Experimental Investigation and Theoretical Prediction of Flutter Behaviour of a Plane Cascade in Low-Speed Flow

H. Hennings, W. Send

GT 1996; V005T14A051https://doi.org/10.1115/96-GT-417

Abstract

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Topics: Cascades (Fluid dynamics) , Flow (Dynamics) , Flutter (Aerodynamics) , Blades , Aerodynamics , Aeroelasticity , Chords (Trusses) , Computation , Fluid-dynamic forces , Test facilities

Validation of a 4D Finite Volume Method for Blade Flutter

Pieter Groth, Hans Mårtensson, Lars-Erik Eriksson

GT 1996; V005T14A052https://doi.org/10.1115/96-GT-429

Abstract

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Topics: Blades , Finite volume methods , Flutter (Aerodynamics) , Algebra , Flow (Dynamics) , Flux (Metallurgy) , Interpolation , Mesh generation

Unsteady Flow Calculation in a Cross-Flow Fan Using a Finite Element Method

P. F. Bert, M. Pessiani, J. F. Combes, J. L. Kueny

GT 1996; V005T14A053https://doi.org/10.1115/96-GT-443

Abstract

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Topics: Cross-flow , Finite element methods , Unsteady flow , Blades , Impellers , Rotors , Vortices , Air conditioning , Fans , Finite element analysis

Steady State Response and Stability of Rotating Composite Blades With Frictional Damping

T. N. Shiau, J. S. Rao, Y. D. Yu, S. T. Choi

GT 1996; V005T14A054https://doi.org/10.1115/96-GT-469

Abstract

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Topics: Blades , Composite materials , Damping , Stability , Steady state , Friction , Excitation , Dampers , Plates (structures) , Rotating blades

High Speed Rotor Losses in a Radial 8-Pole Magnetic Bearing: Part 1 — Experimental Measurement

M. E. F. Kasarda, P. E. Allaire, E. H. Maslen, G. R. Brown, G. T. Gillies

GT 1996; V005T14A055https://doi.org/10.1115/96-GT-470

Abstract

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Topics: Magnetic bearings , Poles (Building) , Rotors , Bearings , Engines , Motors , Stators , Aerospace industry , Density , Eddies (Fluid dynamics)

High Speed Rotor Losses in a Radial 8-Pole Magnetic Bearing: Part 2 — Analytical/Empirical Models and Calculations

M. E. F. Kasarda, P. E. Allaire, E. H. Maslen, G. R. Brown, G. T. Gillies

GT 1996; V005T14A056https://doi.org/10.1115/96-GT-471

Abstract

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Topics: Magnetic bearings , Poles (Building) , Rotors , Bearings , Eddies (Fluid dynamics) , Aerospace industry , Engineering prototypes , Jet engines

Modeling of Friction Contact and its Application to the Design of Shroud Contact

Been-Der Yang, Chia-Hsiang Menq

GT 1996; V005T14A057https://doi.org/10.1115/96-GT-472

Abstract

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Topics: Design , Friction , Modeling , Stress , Damping , Stiffness , Aircraft engines , Cycles , Kinematics , Optimization

Structural Integrity of a Gas Turbine Combustion System Subjected to Increased Dynamic Pressure

John E. Barnes

GT 1996; V005T14A058https://doi.org/10.1115/96-GT-473

Abstract

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Topics: Combustion systems , Gas turbines , Pressure , Combustion , Durability , Finite element analysis , High cycle fatigue , Nitrogen oxides , Oscillations , Risk

Transonic Stall/Choke Flutter Analysis of Cascades by a Navier-Stokes Solution-Adaptive Approach

C. J. Hwang, J. M. Fang

GT 1996; V005T14A059https://doi.org/10.1115/96-GT-511

Abstract

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Topics: Flutter (Aerodynamics) , Blades , Flow (Dynamics) , Bubbles , Degrees of freedom , Finite volume methods , Fourier transforms , Navier-Stokes equations , Pressure , Separation (Technology)

35-Year Old Splined-Disc Rotor Design for Large Gas Turbines

Manfred J. Janssen, John S. Joyce

GT 1996; V005T14A060https://doi.org/10.1115/96-GT-523

Abstract

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Topics: Design , Disks , Gas turbines , Rotors , Construction , Couplings , Electric power generation , Manufacturing , Stress , Testing

Improved Turbine Cylinder Bolting System

Martin C. Gosling

GT 1996; V005T14A061https://doi.org/10.1115/96-GT-524

Abstract

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Topics: Cylinders , Turbines , Hardware , Design , Combustion , Elongation , Manufacturing , Testing , Cycles , Engineering prototypes

Temperature Estimation and Life Prediction of Turbine Blades Using Post Service Oxidation Measurements

V. P. Swaminathan, J. M. Allen, G. L. Touchton

GT 1996; V005T14A062https://doi.org/10.1115/96-GT-528

Abstract

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Topics: Oxidation , Temperature , Turbine blades , Cooling , Cracking (Materials) , Fracture (Process) , Metals , Airfoils , Embrittlement , Finite element analysis

Nonplanar Crack Growth Using the Surface Integral Method

Scott C. Forth, William D. Keat

GT 1996; V005T14A063https://doi.org/10.1115/96-GT-539

Abstract

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Topics: Fracture (Materials) , Algorithms , Density , Dipoles (Electromagnetism) , Fatigue , Hoop stress , Modeling , Trajectories (Physics)

Controls, Diagnostics and Instrumentation

Microwave Blade Tip Clearance Measurement System

Richard Grzybowski, George Foyt, Hartwig Knoell, William Atkinson, Josef Wenger

GT 1996; V005T15A001https://doi.org/10.1115/96-GT-002

Abstract

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Topics: Blades , Clearances (Engineering) , Measurement systems , Microwaves , Sensors , Abrasion , Contamination , Gas turbines , Temperature , Cables

Application of Analytical Redundancy to the Detection of Sensor Faults on a Turbofan Engine

Ronald W. Kelly

GT 1996; V005T15A002https://doi.org/10.1115/96-GT-003

Abstract

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Topics: Engines , Redundancy (Engineering) , Sensors , Turbofans , Shapes , Aircraft engines , Computer software , Control systems , Flaw detection , Hardware

A Novel Proximity Probe Unaffected by Shaft Electromagnetic Properties

Michael M. Hastings, Henrik B. Jensen

GT 1996; V005T15A003https://doi.org/10.1115/96-GT-004

Abstract

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Topics: Probes , Cables , Machinery , Capacitance , Displacement , Eddies (Fluid dynamics) , Eddy currents (Electricity) , Reliability , Risk , Transducers

Simple Instrumentation Rake Designs for Gas Turbine Engine Testing

Peter D. Smout, Steven C. Cook

GT 1996; V005T15A004https://doi.org/10.1115/96-GT-032

Abstract

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Topics: Gas turbines , Instrumentation , Testing , Design , Flow (Dynamics) , Maintenance , Pressure , Calibration , Cavities , Damage

The Effects of Engine Degradation on Creep - Using a Transient Engine Simulation

P. Darrin Little, Riti Singh

GT 1996; V005T15A005https://doi.org/10.1115/96-GT-033

Abstract

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Topics: Creep , Engines , Simulation , Transients (Dynamics) , Temperature , Stress , Failure mechanisms , Metals , Military aircraft , Thrust

Integrated Predictive Diagnostics: An Expanded View

Robert J. Hansen, David L. Hall, G. William Nickerson, Shashi Phoha

GT 1996; V005T15A006https://doi.org/10.1115/96-GT-034

Abstract

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Topics: Architecture , Data fusion , Decision making , Dynamic models , Human factors , Industrial research , Maintenance , Sensors , Signal processing

The Negative Information Problem in Mechanical Diagnostics

David L. Hall, Robert J. Hansen, Derek C. Lang

GT 1996; V005T15A007https://doi.org/10.1115/96-GT-035

Abstract

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Topics: Acoustics , Artificial intelligence , Artificial neural networks , Design , Emissions , Engineering disciplines , Expert systems , Failure , Fuzzy logic , Gas turbines

Intelligent Pressure Measurement for Turbo Machinery Applications

Derek Greener

GT 1996; V005T15A008https://doi.org/10.1115/96-GT-101

Abstract

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Topics: Calibration , Data acquisition , Downtime , Machinery , Pipes , Pressure , Pressure measurement , Sensors , Testing , Turbines

Radial Compressor Fault Identification Using Dynamic Measurement Data

N. Aretakis, K. Mathioudakis

GT 1996; V005T15A009https://doi.org/10.1115/96-GT-102

Abstract

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Topics: Compressors , Diffusers , Impellers , Clearances (Engineering) , Emissions , Pressure , Vibration

Processing of Circumferential Temperature Distributions for the Detection of Gas Turbine Burner Malfunctions

A. Tsalavoutas, K. Mathioudakis, M. K. Smith

GT 1996; V005T15A010https://doi.org/10.1115/96-GT-103

Abstract

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Topics: Gas turbines , Temperature distribution , Temperature , Turbines

A Simplified Scheme for Scheduling Multivariable Controllers and its Application to a Turbofan Engine

Sanjay Garg

GT 1996; V005T15A011https://doi.org/10.1115/96-GT-104

Abstract

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Topics: Control equipment , Engines , Turbofans , Design , Aircraft , Closed loop systems , Optimization , Thrust

Smart Structures and Fiber Optic Technology for 21st Century Control Applications

W. B. Spillman, Jr.

GT 1996; V005T15A012https://doi.org/10.1115/96-GT-105

Abstract

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Topics: Fibers , Smart structures , Control systems , Architecture , Fiber optic sensors , Filters , Gages , Structural design

SiC High Temperature Electronics for Next Generation Aircraft Controls Systems

John F. Perkins, Richard H. Hopkins, Charles D. Brandt, Anant K. Agarwal, Suresh Seshadri, Richard R. Siergiej

GT 1996; V005T15A013https://doi.org/10.1115/96-GT-106

Abstract

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Topics: Aircraft , Electronics , High temperature , Temperature , Actuators , Engines , Sensors , Automotive industry , Control systems , Electrical properties

Transition of a Technology Base for Advanced Aircraft Gas Turbine Control Systems

Michael E. McGlone

GT 1996; V005T15A014https://doi.org/10.1115/96-GT-107

Abstract

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Topics: Aircraft , Control systems , Gas turbines , Flight , Propulsion systems , Thrust , Fuel consumption , Fuel management , Fuels , High pressure (Physics)

High Temperature Power Electronics for Gas Turbine Engine Applications

Richard R. Grzybowski, A. George Foyt

GT 1996; V005T15A015https://doi.org/10.1115/96-GT-108

Abstract

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Topics: Electronics , Gas turbines , High temperature , Silicon , Temperature , Actuators , Circuits , Gallium nitride , Light-emitting diodes , Materials properties

Investigation of Wedge Probe Wall Proximity Effects: Part 1 — Experimental Study

Peter D. Smout, Paul C. Ivey

GT 1996; V005T15A016https://doi.org/10.1115/96-GT-146

Abstract

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Topics: Probes , Wedges , Flow (Dynamics) , Computational fluid dynamics , Pressure , Design , Exterior walls , Flow visualization , Mach number , Turbomachinery

Investigation of Wedge Probe Wall Proximity Effects: Part 2 — Numerical and Analytical Modelling

Peter D. Smout, Paul C. Ivey

GT 1996; V005T15A017https://doi.org/10.1115/96-GT-147

Abstract

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Topics: Modeling , Probes , Wedges , Flow (Dynamics) , Computational fluid dynamics , Wakes , Exterior walls , Pressure , Shapes , Turbomachinery

Aircraft Gas Turbine Engine Fuel Pumping Systems in the 21st Century

Lowell D. Hansen, Gregory D. Kucera, Jeffrey S. Clemons, Jinkook Lee

GT 1996; V005T15A018https://doi.org/10.1115/96-GT-148

Abstract

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Topics: Aircraft , Fuels , Gas turbines , Engines , Centrifugal pumps , Fuel pumps , Mechanical drives , Military systems , Vacuum pumps

Health Monitoring of Turbine Engine Gas Path Components and Measurement Instruments

Y. H. Lee, R. Singh

GT 1996; V005T15A019https://doi.org/10.1115/96-GT-242

Abstract

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Topics: Gas turbines , Instrumentation , Engines , Measurement uncertainty , Aircraft , Inspection , Monitoring systems , Simulation , Turbofans

Dry Low NOx Combustion Systems Development and Operating Experience

Torsten Strand

GT 1996; V005T15A020https://doi.org/10.1115/96-GT-274

Abstract

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Topics: Combustion systems , Nitrogen oxides , Emissions , Combustion , Fuel consumption , Gas turbines , Industrial gases , Natural gas , Turbines , Underground injection

Characterization of Engine Stabilization for Diagnostic and Acceptance Testing

J. W. Bird, A. I. Georgantas, B. C. Barry, J. P. Francoeur, P. House

GT 1996; V005T15A021https://doi.org/10.1115/96-GT-288

Abstract

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Topics: Engines , Testing , Fuels , Heat transfer , Maintenance , Modeling , Turbofans

Multivariable Control of Industrial Gas Turbines: Field Test Results

Ravi Rajamani, Bruce G. Norman

GT 1996; V005T15A022https://doi.org/10.1115/96-GT-289

Abstract

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Topics: Industrial gases , Turbines , Control equipment , Fuels , Combustion , Temperature , Combustion chambers , Design , Dynamic response , Engineering design processes

Estimating Gas Turbine Internal Cycle Parameters Using a Neural Network

Nicolas W. Chbat, Ravi Rajamani, Todd A. Ashley

GT 1996; V005T15A023https://doi.org/10.1115/96-GT-316

Abstract

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Topics: Artificial neural networks , Cycles , Gas turbines , Control equipment , Errors , Combustion , Temperature , Algorithms , Creep , Feedforward control

Wavelet Analysis for Gas Turbine Fault Diagnostics

N. Aretakis, K. Mathioudakis

GT 1996; V005T15A024https://doi.org/10.1115/96-GT-343

Abstract

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Topics: Gas turbines , Wavelets , Signals , Acoustics , Engines , Fourier analysis , Fourier transforms , Pressure , Sensors , Turbomachinery

Capacitive Measurement of Compressor and Turbine Blade Tip to Casing Running Clearance

D. Müller, A. G. Sheard, S. Mozumdar, E. Johann

GT 1996; V005T15A025https://doi.org/10.1115/96-GT-349

Abstract

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Topics: Clearances (Engineering) , Compressors , Turbine blades , Engines , Measurement systems , Gas turbines , Testing , Blades , Cables , Geometry

A Fast-Response Total Temperature Probe for Unsteady Compressible Flows

D. R. Buttsworth, T. V. Jones

GT 1996; V005T15A026https://doi.org/10.1115/96-GT-350

Abstract

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Topics: Compressible flow , Probes , Temperature , Heat flux , Quartz , Convection , Gages , Nozzles , Operating temperature , Platinum

Adaptive Control of a Gas Turbine Engine for Axial Compressor Faults

G. Lombardo

GT 1996; V005T15A027https://doi.org/10.1115/96-GT-445

Abstract

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Topics: Adaptive control , Compressors , Gas turbines , Engines , Optimization , Artificial neural networks , Control systems , Genetic algorithms , Simulation results

Sensor Based Analyzer for Continuous Emission Monitoring in Gas Pipeline Applications

Paul F. Schubert, David R. Sheridan, Michael D. Cooper, Andrew J. Banchieri

GT 1996; V005T15A028https://doi.org/10.1115/96-GT-481

Abstract

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Topics: Emissions , Pipelines , Sensors , Engines , Gas turbines , Nitrogen oxides , Algorithms , Gaseous fuels research , Gases , Instrumentation

Education

How to Get Component Maps for Aircraft Gas Turbine Performance Calculations

Joachim Kurzke

GT 1996; V005T16A001https://doi.org/10.1115/96-GT-164

Abstract

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Topics: Aircraft , Gas turbines , Compressors , Electromagnetic scattering , Engineering simulation , Machinery , Simulation , Testing equipment , Turbines

An Object-Oriented Approach to Gas Turbine Performance Computation

Peng Yip Ho, Poh Seng Ng

GT 1996; V005T16A002https://doi.org/10.1115/96-GT-165

Abstract

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Topics: Computation , Gas turbines , Computer software , Computer programming , Engines , Turbofans , Computer programming languages , Design , Modeling

Enhancing Undergraduate Education: Design of a Gas Turbine Laboratory Facility

Kirk E. Hiles, Gregg W. Dixon

GT 1996; V005T16A003https://doi.org/10.1115/96-GT-190

Abstract

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Topics: Design , Education , Gas turbines , Undergraduate students , Students , Brayton cycle , Data acquisition systems , Engineering students , Engines , Horsepower

The Turboexpander: A Design, Make and Test Student Project

J. D. Denton

GT 1996; V005T16A004https://doi.org/10.1115/96-GT-191

Abstract

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Topics: Design , Students , Turbines , Compressors , Air conditioning , Aircraft , Engineering students , Exhaust systems , Flow (Dynamics) , Inflow

Integrated Gas Turbine Technology Education at Durham University

Harry Marsh, Robert Dominy, David Gregory-Smith, Li He

GT 1996; V005T16A005https://doi.org/10.1115/96-GT-192

Abstract

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Topics: Education , Gas turbines , Turbomachinery , Flow (Dynamics) , Teaching , Turbines , Aerodynamics , Computers , Engineering education , Students

ATEC: The Aerodynamic Turbine Engine Code for the Analysis of Transient and Dynamic Gas Turbine Engine System Operations: Part 1 — Model Development

Doug Garrard

GT 1996; V005T16A006https://doi.org/10.1115/96-GT-193

Abstract

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Topics: Gas turbines , Model development , Transients (Dynamics) , Compressors , Computer simulation , Design , Engineering simulation , Engines , Simulation , Steady state

ATEC: The Aerodynamic Turbine Engine Code for the Analysis of Transient and Dynamic Gas Turbine Engine System Operations: Part 2 — Numerical Simulations

Doug Garrard

GT 1996; V005T16A007https://doi.org/10.1115/96-GT-194

Abstract

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Topics: Computer simulation , Gas turbines , Transients (Dynamics) , Simulation , Simulation results , Calibration , Engines , Flow (Dynamics) , Nozzles , Turbomachinery

Turbomachinery Teaching and Research as a Supplement to Mechanical Engineering Education

Abraham Engeda

GT 1996; V005T16A008https://doi.org/10.1115/96-GT-196

Abstract

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Topics: Mechanical engineering education , Teaching , Turbomachinery , Energy / power systems , Air pollution control , Design , Engineers

An Instructional Cogeneration Laboratory Using Gas Turbine Technology

Andrew Banta, Ngo Dinh Thinh

GT 1996; V005T16A009https://doi.org/10.1115/96-GT-197

Abstract

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Topics: Combined heat and power , Gas turbines , Mechanical engineering , Students , Absorption , Boilers , Computers , Cooling towers , Data acquisition , Design

Response of a Turbofan Engine Compression System to Disturbed Inlet Conditions

Adnan M. Abdel-Fattah

GT 1996; V005T16A010https://doi.org/10.1115/96-GT-206

Abstract

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Topics: Compression , Engines , Turbofans , Compressors , Flow (Dynamics) , Pressure , Geometry , High pressure (Physics) , NASA , Oscillations

Reynolds Stress Tensor Measurements in a Centrifugal Compressor Vaned Diffuser

Ali Pinarbasi, Mark W. Johnson

GT 1996; V005T16A011https://doi.org/10.1115/96-GT-228

Abstract

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Topics: Compressors , Diffusers , Stress tensors , Flow (Dynamics) , Impellers , Stress , Turbulence , Blades , Computational fluid dynamics , Modeling

Experimental Investigation of Turbulence Structures in the Boundary Layer of a Highly Loaded Turbine Cascade

Dirk Wunderwald, Leonhard Fottner

GT 1996; V005T16A012https://doi.org/10.1115/96-GT-249

Abstract

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Topics: Boundary layers , Cascades (Fluid dynamics) , Turbines , Turbulence , Blades , Flow (Dynamics) , Stress , Suction , Boundary layer turbulence , Engines

Passage Flow Structure and its Influence on Endwall Heat Transfer in a 90° Turning Duct: Turbulent Stresses and Turbulent Kinetic Energy Production

Brian G. Wiedner, Cengiz Camci

GT 1996; V005T16A013https://doi.org/10.1115/96-GT-251

Abstract

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Topics: Ducts , Flow (Dynamics) , Heat transfer , Kinetic energy , Stress , Turbulence , Turning , Convection , Resolution (Optics) , Reynolds number

Dynamic Modeling of Starting Aerodynamics and Stage Matching in an Axi-Centrifugal Compressor

Kevin Wilkes, Walter F. O’Brien, A. Karl Owen

GT 1996; V005T16A014https://doi.org/10.1115/96-GT-278

Abstract

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Topics: Aerodynamics , Compressors , Dynamic modeling , Simulation , Design , Engines , Flow (Dynamics) , Gas turbines , Transients (Dynamics)

Stage-by-Stage Dynamic Compression System Modeling for Split Core and Bypass Systems

Jules W. Lindau, Walter F. O’Brien

GT 1996; V005T16A015https://doi.org/10.1115/96-GT-279

Abstract

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Topics: Compression , Modeling , Flow (Dynamics) , Compressors , Simulation , Surges

Advances in Nonlinear Dynamic Engine Simulation With an Example: Dynamic Performance Behavior of a Gas Turbine With One Reheat Turbine Stage and Two Combustion Chambers

M. T. Schobeiri, M. S. Attia

GT 1996; V005T16A016https://doi.org/10.1115/96-GT-392

Abstract

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Topics: Combustion chambers , Engines , Gas turbines , Simulation , Turbines , Energy generation , Reliability , Robustness , Transients (Dynamics) , Turbine components

Advances in Gas Turbine Technology and the Digital Computer

Melvin Platt

GT 1996; V005T16A017https://doi.org/10.1115/96-GT-439

Abstract

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Topics: Computers , Gas turbines , Computational fluid dynamics , Concurrent engineering

Application of Transient and Dynamic Simulations to the U.S. Army T55-L-712 Helicopter Engine

S. A. Savelle, G. D. Garrard

GT 1996; V005T16A018https://doi.org/10.1115/96-GT-455

Abstract

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Topics: Army , Engines , Simulation , Transients (Dynamics) , Gas turbines , Calibration , Compressors , Computers , Turbomachinery

An Approach for the Development of an Aerodynamic-Structural Interaction Numerical Simulation for Aeropropulsion Systems

Javaid Naziar, Rich Couch, Milt Davis

GT 1996; V005T16A019https://doi.org/10.1115/96-GT-480

Abstract

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Topics: Computer simulation , Simulation , Turbomachinery , Combustion chambers , Compressors , Design , Fluids , Aerospace industry , Compression , Flight