Naoto Miyama scite author profile

Naoto Miyama

2Publications

1Citation Statement Received

7Citation Statements Given

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Tokyo University of Science

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Numerical simulation of tip leakage vortex effect on hydrogen-combustion flow around 3D turbine blade

2008

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In these years, a lot of environmental problems such as air pollution and exhaustion of fossil fuels have been discussed intensively. In our laboratory, a hydrogen-fueled propulsion system has been researched as an alternative to conventional systems. A hydrogen-fueled propulsion system is expected to have higher power, lighter weight and lower emissions. However, for the practical use, there exist many problems that must be overcome. Considering these backgrounds, jet engines with hydrogen-fueled combustion within a turbine blade passage have been studied. Although some studies have been made on injecting and burning hydrogen fuel from a stator surface, little is known about the interaction between a tip leakage vortex near the suction side of a rotor tip and hydrogen-fueled combustion.The purpose of this study is to clarify the influence of the tip leakage vortex on the characteristics of the 3-dimensional flow field with hydrogen-fueled combustion within a turbine blade passage. Reynolds-averaged compressible Navier-Stokes equations are solved with incorporating a k-ε turbulence and a reduced chemical mechanism models. Using the computational results, the 3-dimensional turbulent flow field with chemical reactions is numerically visualized, and the three-dimensional turbulent flow fields with hydrogen combustion and the structure of the tip leakage vortex are investigated.

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0611 Numerical Investigation on Tip Leakage Vortex Control of Turbine Rotor by Tip Injection

Miyama

Suzuki

Yamamoto

2010

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Naoto Miyama

Numerical simulation of tip leakage vortex effect on hydrogen-combustion flow around 3D turbine blade

0611 Numerical Investigation on Tip Leakage Vortex Control of Turbine Rotor by Tip Injection

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