Numerical investigation on heat transfer in an advanced new leading edge impingement cooling configuration-Reference-Cited by-同舟云学术

Numerical investigation on heat transfer in an advanced new leading edge impingement cooling configuration

Published:2015-12 Issue:4 Volume:4 Page:179-189
ISSN:2212-540X
Container-title:Propulsion and Power Research
language:en
Short-container-title:Propulsion and Power Research

Author:

Lin G.,Kusterer K.,Ayed A.H.,Bohn D.,Sugimoto T.,Tanaka R.,Kazari M.

Funder

STAR CCM+ Software of CD-adapco

Publisher

Elsevier BV

Subject

Fluid Flow and Transfer Processes,Mechanical Engineering,Fuel Technology,Aerospace Engineering,Automotive Engineering

Reference24 articles.

1. Comparison of heat transfer augmentation techniques;Ligrani;AIAA Journal,2003

2. P. Ligrani, Heat transfer augmentation technologies for internal cooling of turbine components of gas turbine engines, ISJPPE-2012-KB003, 2012.

3. Heat and mass transfer between impinging gas jets and solid surfaces;Martin;Advances in Heat Transfer,1977

4. Jet-impingement heat transfer in gas turbine systems, International Symposium on Heat Transfer in Gas Turbine Systems (Turbine 2000);Han;NEW YORK ACAD SCIENCES: NEW YORK,2001

5. Jet impingement heat transfer: physics, correlations, and numerical modeling;Zuckerman;Advances in Heat Transfer,2006

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