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Keywords: tip leakage flow
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Journal Articles

A Genetic Algorithm Based Multi-Objective Optimization of Squealer Tip Geometry in Axial Flow Turbines: A Constant Tip Gap Approach

H. Maral, C. B. Şenel, K. Deveci, E. Alpman, L. Kavurmacıoğlu, Cengiz Camci
Journal: Journal of Fluids Engineering
Article Type: Research-Article
J. Fluids Eng. February 2020, 142(2): 021402.
Paper No: FE-19-1096
DOI: https://doi.org/10.1115/1.4044721
Published Online: October 10, 2019
.... The leakage flow through the tip gap measurably reduces turbine performance and causes high thermal loads near the blade tip region. Several studies focused on the tip leakage flow to clarify the flow-physics in the past. The “squealer” design is one of the most common designs to reduce the adverse effects...
View Article titled, A Genetic Algorithm Based Multi-Objective Optimization of Squealer Tip Geometry in Axial Flow Turbines: A Constant Tip Gap Approach
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Topics: Artificial neural networks, Axial flow, Blades, Computational fluid dynamics, Databases, Design, Flow (Dynamics), Genetic algorithms, Geometry, Leakage flows
Journal Articles

Influence of Flow Coefficient, Stagger Angle, and Tip Clearance on Tip Vortex in Axial Compressors

Yong Sang Yoon, Seung Jin Song, Hyoun-Woo Shin
Journal: Journal of Fluids Engineering
Article Type: Technical Papers
J. Fluids Eng. November 2006, 128(6): 1274–1280.
DOI: https://doi.org/10.1115/1.2354522
Published Online: March 27, 2006
... between the mid chord and trailing edge of the blade. This increased tip leakage flow pushes the tip vortex toward the adjacent blade. This research has been supported by the Micro Thermal Systems Center of KOSEF and by GE Transportation, Aircraft Engines. Special thanks are given...
View Article titled, Influence of Flow Coefficient, Stagger Angle, and Tip Clearance on Tip Vortex in Axial Compressors
Click here to open pdf in another window PDF for Influence of Flow Coefficient, Stagger Angle, and Tip Clearance on Tip Vortex in Axial Compressors
Topics: Blades, Clearances (Engineering), Compressors, Flow (Dynamics), Pressure, Rotors, Trajectories (Physics), Vortices, Wake turbulence, Leakage flows