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Computational Study of Clocking an Embedded Stage in a 4-Stage Industrial Turbine
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D.J. Dorney,
, R.R. Croft, , D.L. Sondak, , U.E. Stang, and C.Z. Twardochleb,
Published/Copyright:
June 1, 2002
Published Online: 2002-06
©2011 by Walter de Gruyter GmbH & Co.
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Articles in the same Issue
- CONTENTS
- Simulating the Flow Field in a Rear Stage of a Multistage Axial Flow Compressor
- Application of Singularity Theory to Cascade Design
- Computational Study of Clocking an Embedded Stage in a 4-Stage Industrial Turbine
- Three-Dimensional Simulations of Airfoil Clocking in a 1-1/2 Stage Turbine
- Performance Improvements in an Industrial Compressor Through Airfoil Clocking
- High-Speed Rotor Wake, Vortical & Potential Forcing Functions
- Numerical and Experimental Flow Visualizations of the Mixing Process Inside an Induced Air Ejector
- Local Temperature Regulator in Gas Turbine Engines
- Supersonic Free Jet Control with Microjets
- Sonic Jet Control with Tabs
- Active Control of Suddenly Expanded Flows from Overexpanded Nozzles
Articles in the same Issue
- CONTENTS
- Simulating the Flow Field in a Rear Stage of a Multistage Axial Flow Compressor
- Application of Singularity Theory to Cascade Design
- Computational Study of Clocking an Embedded Stage in a 4-Stage Industrial Turbine
- Three-Dimensional Simulations of Airfoil Clocking in a 1-1/2 Stage Turbine
- Performance Improvements in an Industrial Compressor Through Airfoil Clocking
- High-Speed Rotor Wake, Vortical & Potential Forcing Functions
- Numerical and Experimental Flow Visualizations of the Mixing Process Inside an Induced Air Ejector
- Local Temperature Regulator in Gas Turbine Engines
- Supersonic Free Jet Control with Microjets
- Sonic Jet Control with Tabs
- Active Control of Suddenly Expanded Flows from Overexpanded Nozzles