Thursday, May 14, 2020

The Effect Of Gas Turbine Blade Tip Injection On The Flow...

EFFECT OF GAS TURBINE BLADE TIP INJECTION ON THE FLOW CHARACTERISTICS AND THE DISTRIBUTION OF HEAT TRANSFER COEFFICIENT OVER BLADE SURFACES Ahmed A. Abdelsamee 1, Bassily Hanna 2, El-Batsh H.3, Mohammed R. Diab 4 1 Assistant Lecturer, Mechanical Engineering and energy Dep., Faculty of Engineering, South Valley University, Qena, Egypt 2Professor, Mechanical power engineering and energy Dep., Faculty of Engineering, Minia University, Minia, Egypt 3 Professor, Mechanical power Engineering and energy Dep., Benha Faculty of Engineering, Benha University, Benha, Egypt 4 Professor, Mechanical power Engineering and energy Dep., Faculty of Engineering, Minia University, Minia, Egypt Abstract Gas turbine blades are subjected to high thermal loads caused by the high temperature of the gases entering the cascade. The pressure difference between the blade pressure surface and the blade suction surface induces tip leakage flow, which increases heat transfer in the blade tip region. In this paper, the three dimensional flow and heat transfer are examined for an internally cooled blade cascade with tip injection using numerical technique. The three-dimensional turbulent flow was obtained by solving Reynolds averaged Navier Stokes equations and the energy equation. The Shear Stress Transport (SST) k-ï  · model was employed to represent turbulent flow. The cooling air is injected from eleven holes with 3 mm diameter arranged along the blade chamber line. The operating and boundary conditions

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