Y. Tarukawa scite author profile

Y. Tarukawa

2Publications

25Citation Statements Received

16Citation Statements Given

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Iwate University, Tohoku University

Publications

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Heat Transfer Characteristics of an Integrated Cooling Configuration for Ultra-High Temperature Turbine Blades: Experimental and Numerical Investigations

Funazaki

Tarukawa

Kudo

et al. 2001

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This paper deals with fundamental research on heat transfer characteristics inside a cooling configuration designed for an ultra-high temperature turbine nozzle. The cooling configuration adopted in this study integrates impingement cooling and pin cooling devices into one body, aiming at the enhancement of the effective area for the impingement cooling. A large-scaled test model of this cooling system is constructed to measure its internal heat transfer distribution, where a number of pins are sandwiched between an impingement plate and a target plate. The target plate are provided with several air discharging holes. A focus of this study is on how the heat transfer characteristics depend on the effect of stand-off distance: a distance between these two plates. Ratios of the stand-off distance to the impingement hole diameter varies from 0.75 to 2.00. A transient measurement technique using narrow-banded thermochromatic liquid crystal (TLC) is employed to determine the heat transfer characteristics of the model. Numerical investigations using a commercial CFD code are also executed and those results are compared with the experimental data. It is accordingly found that the numerical results almost match the measurements. It is also shown that the addition of pins to the conventional impingement cooling system can produce about 50% increase in the effective cooling area.

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214 Studies on an Advanced Cooling System for Turbine Blades : Measurements of Heat Transfer Characteristics using Thermochromics Liquid Crystal

Funazaki

Tarukawa

Yamawaki³

2000

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Y. Tarukawa

Heat Transfer Characteristics of an Integrated Cooling Configuration for Ultra-High Temperature Turbine Blades: Experimental and Numerical Investigations

214 Studies on an Advanced Cooling System for Turbine Blades : Measurements of Heat Transfer Characteristics using Thermochromics Liquid Crystal

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