High thermal load appears at the blade tip and casing of a gas turbine engine. It becomes a significant design challenge to protect the turbine materials from this severe situation. As a result of geometric complexity and experimental limitations, computational fluid dynamics tools have been used to predict blade tip leakage flow aerodynamics and heat transfer at typical engine operating conditions. In this paper, the effect of turbine inlet temperature on the tip leakage flow structure and heat transfer has been studied numerically. Uniform low (444 K) and high (800 K) inlet temperatures and nonuniform (parabolic) temperature profiles have been considered at a fixed rotor rotation speed (9500 rpm). The results showed that the change of flow properties at a higher inlet temperature yields significant variations in the leakage flow aerodynamics and heat transfer relative to the lower inlet temperature condition. Aerodynamic behavior of the tip leakage flow varies significantly with the distortion of turbine inlet temperature. For more realistic inlet condition, the velocity range is insignificant at all time instants. At a high inlet temperature, reverse secondary flow is strongly opposed by the tip leakage flow and the heat transfer fluctuations are reduced greatly.
Skip Nav Destination
e-mail: ibrahimh@alcor.concordia.ca
Article navigation
March 2012
Research Papers
Effects of Inlet Temperature Uniformity and Nonuniformity on the Tip Leakage Flow and Rotor Blade Tip and Casing Heat Transfer Characteristics
Md. Hamidur Rahman,
Md. Hamidur Rahman
Graduate Student
Concordia University
, 1455 De Maisonneuve Blvd. West, Montreal, QC, Canada H3G 1M8
Search for other works by this author on:
Sung In Kim,
Sung In Kim
Research Associate
Department of Mechanical and Industrial Engineering,
Concordia University
, 1515 St. Catherine St. West, EV4.139, Montreal, QC, Canada H3B 5L1
Search for other works by this author on:
Ibrahim Hassan
Ibrahim Hassan
Department of Mechanical and Industrial Engineering,
e-mail: ibrahimh@alcor.concordia.ca
Concordia University
, 1515 St. Catherine St. West, EV4.139, Montreal, QC, Canada H3B 5L1
Search for other works by this author on:
Md. Hamidur Rahman
Graduate Student
Concordia University
, 1455 De Maisonneuve Blvd. West, Montreal, QC, Canada H3G 1M8
Sung In Kim
Research Associate
Department of Mechanical and Industrial Engineering,
Concordia University
, 1515 St. Catherine St. West, EV4.139, Montreal, QC, Canada H3B 5L1
Ibrahim Hassan
Department of Mechanical and Industrial Engineering,
Concordia University
, 1515 St. Catherine St. West, EV4.139, Montreal, QC, Canada H3B 5L1e-mail: ibrahimh@alcor.concordia.ca
J. Turbomach. Mar 2012, 134(2): 021001 (10 pages)
Published Online: June 21, 2011
Article history
Received:
October 12, 2009
Revised:
July 24, 2010
Online:
June 21, 2011
Published:
June 21, 2011
Citation
Rahman, M. H., Kim, S. I., and Hassan, I. (June 21, 2011). "Effects of Inlet Temperature Uniformity and Nonuniformity on the Tip Leakage Flow and Rotor Blade Tip and Casing Heat Transfer Characteristics." ASME. J. Turbomach. March 2012; 134(2): 021001. https://doi.org/10.1115/1.4003211
Download citation file:
Get Email Alerts
Evaluating Thin-Film Thermocouple Performance on Additively Manufactured Turbine Airfoils
J. Turbomach (July 2025)
Thermohydraulic Performance and Flow Structures of Diamond Pyramid Arrays
J. Turbomach (July 2025)
Related Articles
Aerothermal Study of the Unsteady Flow Field in a Transonic Gas Turbine With Inlet Temperature Distortions
J. Turbomach (July,2011)
Analysis on the Effect of a Nonuniform Inlet Profile on Heat Transfer and Fluid Flow in Turbine Stages
J. Turbomach (January,2012)
Development and Aerothermal Investigation of Integrated Combustor Vane Concept
J. Turbomach (January,2016)
Influence of Stator-Rotor Interaction on the Aerothermal Performance of Recess Blade Tips
J. Turbomach (January,2011)
Related Proceedings Papers
Related Chapters
Outlook
Closed-Cycle Gas Turbines: Operating Experience and Future Potential
Alternative Systems
Turbo/Supercharger Compressors and Turbines for Aircraft Propulsion in WWII: Theory, History and Practice—Guidance from the Past for Modern Engineers and Students
Control and Operational Performance
Closed-Cycle Gas Turbines: Operating Experience and Future Potential