Since the initial development and implementation of the modern gas turbine engine during the 1930s, tremendous progress has been made in advancing the technology for aircraft and marine propulsion, electric-power generation, and mechanical drives for industrial applications. Even with seventy years of development, there remain numerous opportunities for advances in efficiency, performance, service life, environmental friendliness, and affordability. A high-technology engineered system, the gas turbine can still benefit from advances in many fields to enable both breakthroughs and the removal of design constraints.
Endwall Aerodynamics and Heat Transfer
2014-01-01
36 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Turbine Endwall Aerodynamics and Heat Transfer
AIAA | 2006
|SPECIAL SECTION: TURBINE SCIENCE AND TECHNOLOGY - Turbine Endwall Aerodynamics and Heat Transfer
Online Contents | 2006
|Blade Tip Heat Transfer and Aerodynamics in a Large Scale Turbine Cascade With Moving Endwall
Online Contents | 2012
|3D ENDWALL PROFILING IMPACT ON AXIAL FLOW COMPRESSOR AERODYNAMICS
British Library Conference Proceedings | 2009
|