Results 221 to 230 of about 13,478 (277)

A review of gas turbine effusion cooling studies

International Journal of Heat and Mass Transfer, 2013
Abstract Effusion-cooling is the next logical step in gas turbine blade cooling. Research on this topic has been done since the early 1950s, but manufacturing and modelling difficulties have prevented its commercial application so far. Still, there is a multitude of scientific publications about most aspects of this technology. Here, an overview over
exaly   +2 more sources

Directional Effects of Effusion Cooling on the Cooling Film Effectiveness

AIAA Journal, 2021
Effusion cooling in gas turbine combustors is complicated by swirling flows for anchoring flame, whereas miniature effusion cooling jets are highly directional.
Leo C. Paitich, Patrick Richer, Bertrand Jodoin, Yeongmin Pyo, Sean Yun, Zekai Hong   +5 more
openaire   +1 more source

Effusion Cooling: Influence of Pressure Drop

Volume 6A: Heat Transfer — Combustors; Film Cooling, 2022
Abstract Combustor liners are exposed to significant thermal gradients with hot combustion gases on one side and compressor directed cooling air on the other side. To maintain effective life of the liners, development of effective methods to cool gas turbine combustor liners are a necessity.
Michael Bonds, Benjamin H. Wahls, Srinath V. Ekkad, Nagaraja Rudrapatna, Rudy Dudebout, Ryan Meyer   +5 more
openaire   +1 more source

Correlative Analysis of Effusion Cooling Systems

Journal of Turbomachinery, 2008
Gas turbine cooling has steadily acquired major importance whenever engine performances have to be improved. Among various cooling techniques, film cooling is probably one of the most diffused systems for protecting metal surfaces against hot gases in turbine stages and combustor liners. Most recent developments in hole manufacturing allow to perform a
L. ARCANGELI, FACCHINI, BRUNO, M. SURACE, TARCHI, LORENZO   +3 more
openaire   +1 more source

The Mechanism and Application of Effusion Cooling

The Journal of the Royal Aeronautical Society, 1959
In his excellent review of the “state of the art” of effusion cooling (p. 73, February Journal, 1959), Dr. P. Grootenhuis clearly distinguishes the two mechanisms which contribute to the cooling effectiveness; namely, efficient abstraction of heat from the porous wall material by internal transfer to the effusing coolant, and reduction of the rate of ...
openaire   +2 more sources

Advances in effusive cooling techniques of gas turbines

Applied Thermal Engineering, 2007
Abstract Gas turbine combustion chambers and turbine blades require better cooling techniques to cope with the increase in operating temperatures with each new engine model. Current gas turbine inlet temperatures are approaching 2000 K. Transpiration-cooled components have proved an effective way to achieve high temperatures and erosion resistance ...
Battisti, Lorenzo, G. Cerri, Fedrizzi, Roberto, A. Giovannelli   +3 more
openaire   +3 more sources

Cooling Efficiency for Assessing the Cooling Performance of an Effusion Cooled Combustor Liner

Volume 3B: Heat Transfer, 2013
Based on experimental results on a liner of a modern direct lean injection combustion chamber using coolant ejection from both effusion cooling holes and a starter film, a method is presented that allows the assessment of the cooling performance of the liner.
Wurm, B., Schulz, A., Bauer, H.-J., Gerendas, M.   +3 more
openaire   +2 more sources

Correlative Analysis of Effusion Cooling Systems

Volume 3: Heat Transfer, Parts A and B, 2006
Gas turbine cooling has steadily acquired major importance whenever engine performances have to be improved. Among various cooling techniques, film cooling is probably one of the most diffused systems for protecting metal surfaces against hot gases in turbine stages and combustor liners. Most recent developments in hole manufacturing allow to perform a
Lorenzo Arcangeli, Marco Surace, Lorenzo Tarchi, Daniele Coutandin, Stefano Zecchi   +4 more
openaire   +3 more sources

Effusion Cooling: The Influence of the Number of Holes

Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 1990
Experimental measurements of the overall cooling effectiveness for full-coverage discrete hole effusion cooling are presented for a wide range of practical geometries and for a density ratio between the coolant and combustion gases of 2.5. The influence of the number of holes per unit surface area was investigated at two fixed total hole areas or ...
G E Andrews, A A Asere, M L Gupta, M C Mkpadi   +3 more
openaire   +1 more source