Volumes | Turbo Expo | American Society of Mechanical Engineers Digital Collection

Topics: Combustion chambers , Dynamics (Mechanics) , Gas turbines , Algorithms , Chemistry , Combustion , Energy resources , Flow (Dynamics) , Momentum , Simulation

Gas Turbine Cycle Design Methodology: A Comparison of Parameter Variation With Numerical Optimization

Joachim Kurzke

GT 1998; V002T02A008https://doi.org/10.1115/98-GT-343

Abstract

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Topics: Cycles , Design methodology , Gas turbines , Optimization , Design , Simulation , Engines , Graphical user interfaces , Optimization algorithms , Thermodynamic cycles

Fast CE™ — A Radical Approach to Concurrent Engineering

Dennis E. Barbeau

GT 1998; V002T02A009https://doi.org/10.1115/98-GT-354

Abstract

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Topics: Concurrent engineering , Design , Engineering drawings , Conceptual design , Databases , Manufacturing , Product development , Quality control

Affordable Nozzles Employing the Fixed Aperture Design Approach

Ernie Schuster, Phil Smereczniak, Ron Luffy, Steve Scavo

GT 1998; V002T02A010https://doi.org/10.1115/98-GT-355

Abstract

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Topics: Design , Nozzles , Ejectors , Actuators , Cycles , Engines , Exhaust systems , Gas turbines , Hydraulics , Linkages

A Parametric Starting Study of an Axial-Centrifugal Gas Turbine Engine Using a One-Dimensional Dynamic Engine Model and Comparisons to Experimental Results: Part 1 — Model Development and Facility Description

A. Karl Owen, Anne Daugherty, Doug Garrard, Howard C. Reynolds, Richard D. Wright

GT 1998; V002T02A011https://doi.org/10.1115/98-GT-470

Abstract

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Topics: Engines , Gas turbines , Model development , Calibration , Air flow , Generators , Test facilities , Testing , Tradeoffs

A Parametric Starting Study of an Axial-Centrifugal Gas Turbine Engine Using a One-Dimensional Dynamic Engine Model and Comparisons to Experimental Results: Part 2 — Simulation Calibration and Trade-Off Study

A. Karl Owen, Anne Daugherty, Doug Garrard, Howard C. Reynolds, Richard D. Wright

GT 1998; V002T02A012https://doi.org/10.1115/98-GT-471

Abstract

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Topics: Calibration , Engines , Gas turbines , Simulation , Tradeoffs , Air flow , Generators , Model development , Test facilities

New Non-Dimensional Parameters in Fluid Mechanics and Their Application to Turbine Flowmeter Data Analysis

Subir Mozumdar, Obaidul Islam

GT 1998; V002T02A013https://doi.org/10.1115/98-GT-486

Abstract

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Topics: Flowmeters , Fluid mechanics , Turbines , Theorems (Mathematics) , Calibration , Dimensional analysis

The Technology of Multipurpose Optimization of Gas-Turbine Engines and Their Components

I. N. Egorov, G. V. Kretinin, I. A. Leshchenko, S. S. Kostiuk

GT 1998; V002T02A014https://doi.org/10.1115/98-GT-512

Abstract

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Topics: Engines , Gas turbines , Optimization , Design

Aeropropulsion Environmental Test Facility

John K. Lominac, Joseph F. Boytos

GT 1998; V002T02A015https://doi.org/10.1115/98-GT-555

Abstract

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Topics: Test facilities , Engines , Construction , Air Force , Design , Ducts , Acoustics , Air flow , Aircraft engines , Blocks (Building materials)

Adaptation of the Stuttgart University Altitude Test Facility for BR700 Core Demonstrator Engine Tests

Klaus-J. Schmidt, Ralph Merten, Martin Menrath, Wolfgang Braig

GT 1998; V002T02A016https://doi.org/10.1115/98-GT-556

Abstract

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Topics: Engines , Test facilities , Pressure , Control systems , Temperature profiles , Aerospace industry , Air conditioning , Computer control , Control equipment , Fuels

A New Test Facility for Testing of Cooled Gasturbine Components

Ulf R. Rådeklint, Christer S. Hjalmarsson

GT 1998; V002T02A017https://doi.org/10.1115/98-GT-557

Abstract

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Topics: Test facilities , Testing , Gas turbines , Heat transfer , Turbines , Combustion chambers , Compressors , Cooling , Design , Engines

Predicted Influence of Intake Acoustics Upon Part-Speed Fan Flutter

J. W. Chew, M. Vahdati, M. Imregun

GT 1998; V002T02A018https://doi.org/10.1115/98-GT-558

Abstract

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Topics: Acoustics , Flutter (Aerodynamics) , Computational fluid dynamics , Acoustical properties , Aerodynamics , Approximation , Blades , Damping , Ducts , Engines

Marine

Extending Use of Marine Gas Turbines Through Application of the LM2500+

David L. Luck

GT 1998; V002T03A001https://doi.org/10.1115/98-GT-041

Abstract

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Topics: Engines , Gas turbines , Marine gas turbines , Military systems , Propulsion , Ships , Vessels , Weight (Mass)

A Gas Turbine Dynamic Model for Simulation and Control

Horacio Perez-Blanco, Todd B. Henricks

GT 1998; V002T03A002https://doi.org/10.1115/98-GT-078

Abstract

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Topics: Dynamic models , Gas turbines , Simulation , Turbines , Compressors , Computers , Design , Stress , Combined heat and power , Combustion chambers

Italian Navy Application, Operation and Maintenance of Fiat - GE LM2500 Gas Turbine Propulsion Systems

Massimo Maggini, Roberto Tonelli

GT 1998; V002T03A003https://doi.org/10.1115/98-GT-135

Abstract

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Topics: Gas turbines , Maintenance , Navy , Propulsion systems , Propellers , Engines , Ships , Blades , Diesel , Fuel consumption

35 Years of Operation With Rolls-Royce Marine Proteus Gas Turbines in Swedish Navy Fast Surface Attack Ships

Jan-Olof Löfdahl

GT 1998; V002T03A004https://doi.org/10.1115/98-GT-147

Abstract

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Topics: Gas turbines , Navy , Ships , Engines , Boats , Compressors , Corrosion , Damage , Life extension , Machinery

Cost Effective Maintenance of Gas Turbine Machinery in Swedish Navy Fast Surface Attack Ships

Jan-Olof Löfdahl

GT 1998; V002T03A005https://doi.org/10.1115/98-GT-148

Abstract

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Topics: Gas turbines , Machinery , Maintenance , Navy , Ships , Engines , Failure , Reliability , Workshops (Work spaces)

Integrated Testing of the Full Authority Digital Control and Redundant Independent Mechanical Start System for the U.S. Navy’s DDG-51 Ship Service Gas Turbine Generator Sets

Helen J. Kozuhowski, Matthew G. Hoffman, C. David Mako, Leonard L. Overton, Jr., William E. Masincup

GT 1998; V002T03A006https://doi.org/10.1115/98-GT-273

Abstract

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Topics: Gas turbines , Generators , Ships , Testing , Engines , Control systems , Engineering prototypes , Governors , High pressure (Physics) , Hull

Application of Gas Turbines on Floater Vessel for Power Generation Service

Chris Waldhelm

GT 1998; V002T03A007https://doi.org/10.1115/98-GT-277

Abstract

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Topics: Energy generation , Gas turbines , Vessels , Electricity (Physics) , Generators , North Sea , Petroleum extraction , Solar energy , Turbines

Preliminary Assessment of Advanced Gas Turbines for CVX

Ronald L. Bannister, Dennis A. Horazak

GT 1998; V002T03A008https://doi.org/10.1115/98-GT-278

Abstract

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Topics: Gas turbines , Propulsion , Ships , Ducts , Electric propulsion , Electricity (Physics) , Energy generation , Exhaust systems , Marine gas turbines , Motors

Combined Gas Turbine and Diesel Generator Cooling Air Intake System

Roger Yee, Alan Oswald

GT 1998; V002T03A009https://doi.org/10.1115/98-GT-280

Abstract

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Topics: Cooling , Diesel generators , Gas turbines , Ships , Ammunition , Aviation , Engines , Fuels , Navy , Seas

Investigating and Resolving Accessory Gearbox Failures on Allison 501-K Series Engines

Dennis M. Russom, William E. Masincup, John Eghtessad, Andrew Schultz

GT 1998; V002T03A010https://doi.org/10.1115/98-GT-281

Abstract

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Topics: Engines , Failure , Mechanical drives , Ships , Gas turbines , Generators , Navy , Reliability

A Performance Evaluation of a Three Splitter Diffuser and Vaneless Diffuser Installed on the Power Turbine Exhaust of a TF40B Gas Turbine

Howard Harris, Ivan Piñeiro, Tom Norris

GT 1998; V002T03A011https://doi.org/10.1115/98-GT-284

Abstract

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Topics: Diffusers , Exhaust systems , Gas turbines , Performance evaluation , Turbines , Vaneless diffusers , Pressure , Engines , Design , Failure

Water Injection Into Navy Gas-Turbine Combustors to Reduce NO_x Emissions

Herman B. Urbach, Donald T. Knauss, Balfour L. Wallace, John Emory, John Frese, Joseph W. Bishop

GT 1998; V002T03A012https://doi.org/10.1115/98-GT-298

Abstract

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Topics: Combustion chambers , Emissions , Gas turbines , Navy , Nitrogen oxides , Underground injection , Engines , Water , Control equipment , Steady state

Interim Logistics Support for the 501-K17 Gas Turbine Improvement Program

Maurice J. Hartey, Kenneth Kucowski, Linda Ochs, Robin Howe

GT 1998; V002T03A013https://doi.org/10.1115/98-GT-299

Abstract

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Topics: Gas turbines , Logistics , Ships , Maintenance , Navy , Defense industry , Energy generation , Generators , Hull , Propulsion

Design Features of Gas Turbine Systems Applied to Floating Production Storage and Off-Loading (FPSO) Vessels

Chris Waldhelm, Peter Baron

GT 1998; V002T03A014https://doi.org/10.1115/98-GT-330

Abstract

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Topics: Design , FPSO , Gas turbines , Storage , Vessels , Construction , Drilling , Industrial gases , Ocean engineering , Reliability

Evaporative Compressor Cooling for NOx Suppression and Enhanced Engine Performance for Naval Gas Turbine Propulsion Plants

Michael R. Sexton, Herman B. Urbach, Donald T. Knauss

GT 1998; V002T03A015https://doi.org/10.1115/98-GT-332

Abstract

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Topics: Compressors , Cooling , Engines , Gas turbines , Nitrogen oxides , Propulsion , Water , Air flow , Flow (Dynamics) , Combustion chambers

Characteristics of Low Frequency Non-Synchronous Vibrations Induced by an Epicyclic Gearbox in Gas Turbogenerator Applications

A. K. Rakhit, G. A. Cornejo, G. J. Lack

GT 1998; V002T03A016https://doi.org/10.1115/98-GT-333

Abstract

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Topics: Mechanical drives , Turbogenerators , Vibration , Stress , Plain bearings , Damping , Generators , Trains , Whirls , Bearings

A 21st Century Warship With a 21st Century Propulsion System

Mark Carter, Magnus Olsson, Jan-Erik Gustavson, Joe Ranero

GT 1998; V002T03A017https://doi.org/10.1115/98-GT-437

Abstract

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Topics: Design , Diesel , Diesel engines , Gas turbines , Mechanical drives , Propulsion systems , Ships , Signals , Turbines

Microturbines and Small Turbomachinery

Development of the Next Generation Gas Turbine Based Jet Air Start Unit for the US Navy

Michael J. Zoccoli, William H. Cheeseman

GT 1998; V002T04A001https://doi.org/10.1115/98-GT-084

Abstract

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Topics: Gas turbines , Navy , Aircraft , Engines , Generators , Horsepower , Machinery , Power stations , Testing

Performance Analysis of a 50KW Turbogenerator Gas Turbine Engine

S. Y. Kim, M. R. Park, S. Y. Cho

GT 1998; V002T04A002https://doi.org/10.1115/98-GT-209

Abstract

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Topics: Gas turbines , Turbogenerators , Turbines , Design , Engines , Pressure , Temperature , Compressors , Generators , Hybrid electric vehicles

Current Status of the CGT301, Ceramic Gas Turbine

Tomoki Taoka, Shinya Tanaka, Masashi Tatsuzawa, Takeshi Sakida

GT 1998; V002T04A003https://doi.org/10.1115/98-GT-288

Abstract

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Topics: Ceramics , Gas turbines , Engines , Rotors , Blades , Combined heat and power , Design , Disks , Manufacturing , Metals

Micro Gas Turbine for Combined Heat and Power in Distributed Generation

Johanna Carnö, Adrin Cavani, Leif Liinanki

GT 1998; V002T04A004https://doi.org/10.1115/98-GT-309

Abstract

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Topics: Combined heat and power , Distributed power generation , Micro gas turbines , Emissions , Heat , Maintenance , Turbogenerators , Combustion chambers , Fuels , Gas turbines

Determination of the Realistic Turbocharger Efficiency With Pulsating Gas-Flow Compared on a 4-Cylinder Engine

Ferdinand Trenc, Matej Čer, Frančišek Bizjan, Aleš Hribernik

GT 1998; V002T04A005https://doi.org/10.1115/98-GT-358

Abstract

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Topics: Cylinders , Engines , Gas flow , Turbochargers , Exhaust systems , Turbines , Flow (Dynamics) , Pressure , Kinetic energy , Temperature

Status of the European Gas Turbine Program — AGATA

Rolf Gabrielsson, Robert Lundberg, Patrick Avran

GT 1998; V002T04A006https://doi.org/10.1115/98-GT-392

Abstract

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Topics: Gas turbines , Turbines , Wheels , Combustion chambers , Design , Heat exchangers , Temperature , Catalysts , Ducts , High temperature

Development of Ceramic Components for Ceramic Gas Turbine Engine (CGT302)

Makoto Yoshida, Koichi Tanaka, Toshifumi Kubo, Hirofumi Terazono, Sazo Tsuruzono

GT 1998; V002T04A007https://doi.org/10.1115/98-GT-398

Abstract

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Topics: Ceramics , Gas turbines , Industrial ceramics , Engines , Temperature , Turbines , Combined heat and power , Design , Emissions , Fracture (Materials)

Experiment on Foreign Object Damage of Gas Turbine-Grade Silicon Nitride Ceramic

Hiro Yoshida, Takashi Nakashima, Makoto Yoshida, Yasushi Hara, Toru Shimamori

GT 1998; V002T04A008https://doi.org/10.1115/98-GT-399

Abstract

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Topics: Damage , Silicon nitride ceramics , Turbines , Fracture (Materials) , Blades , Particulate matter , Temperature , Stress , Centrifugal force , Impact testing

Development of a 50-kW, Low-Emission Turbogenerator for Hybrid Electric Vehicles

Patrick O’Brien

GT 1998; V002T04A009https://doi.org/10.1115/98-GT-400

Abstract

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Topics: Emissions , Hybrid electric vehicles , Turbogenerators , Army , Design , Engines , Generators , Turbines , Air bearings , Compressor impellers

Hybrid Vehicle Turbine Engine Technology Support (HVTE-TS) Program 1997–98 Progress

Steven G. Berenyi, George T. Sinnet, J. Mark French

GT 1998; V002T04A010https://doi.org/10.1115/98-GT-451

Abstract

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Topics: Gas turbines , Hybrid electric vehicles , Ceramics , Experimental design , Combustion systems , Emissions , Engines , Generators , Insulation , Propulsion systems

Development and Evaluation of Silicon Nitride Components for Ceramic Gas Turbine

Yasushi Hara, Katsura Matsubara, Ken-ichi Mizuno, Toru Shimamori, Hiro Yoshida

GT 1998; V002T04A011https://doi.org/10.1115/98-GT-498

Abstract

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Topics: Ceramics , Gas turbines , Silicon nitride ceramics , Engines , Turbine blades , Turbines , Nozzles , Particle collisions , Combined heat and power , Damage

Current Status of Ceramic Gas Turbine (CGT302)

Hirotake Kobayashi, Tetsuo Tatsumi, Takashi Nakashima, Isashi Takehara, Yoshihiro Ichikawa

GT 1998; V002T04A012https://doi.org/10.1115/98-GT-501

Abstract

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Topics: Ceramics , Gas turbines , Thermal efficiency , Nitrogen oxides , Durability , Emissions , Industrial research , Regulations , Sunlight , Technology development