Choon Sik Shin scite author profile

Choon Sik Shin

2Publications

20Citation Statements Received

22Citation Statements Given

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Andong National University

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A computational study of thrust vectoring control using dual throat nozzle

et al. 2010

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Dual throat nozzle (DTN) is fast becoming a popular technique for thrust vectoring. The DTN is designed with two throats, an upstream minimum and a downstream minimum at the nozzle exit, with a cavity in between the upstream throat and exit. In the present study, a computational work has been carried out to analyze the performance of a dual throat nozzle at various mass flow rates of secondary flow and nozzle pressure ratios (NPR).Two-dimensional, steady, compressible Navier-Stokes equations were solved using a fully implicit finite volume scheme. The present computational results were validated with available experimental data. Based on the present results, the control effectiveness of thrust-vectoring is discussed in terms of the thrust coefficient and the coefficient of discharge.

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Visualization of Hysteresis Phenomenon of Shock Waves in Supersonic Internal Flow

Suryan¹,

Shin²,

Setoguchi³

et al. 2010

Journal of the Korean Society of Visualization

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Abstract. Hysteresis is an effect by which the order of previous events influences the order of subsequent events. Hysteresis phenomenon of supersonic internal flows with shock waves has not yet been clarified satisfactorily. In the present study, experiments are carried out on internal flow in a supersonic nozzle to clarify the hysteresis phenomena for the shock waves. Flow visualization is carried out separately on the straight and divergent channels downstream of the nozzle throat section. Results obtained were compared with numerically simulated data. The results confirmed hysteresis phenomenon for shock wave in the Laval nozzle at a certain specific condition. The relationship between hysteresis phenomenon and the range of the rate of change of pressure ratio with time was shown experimentally. The existence of hysteretic behavior in the formation, both the location and strength, of shock wave in the straight part of the supersonic nozzle with a range of pressure ratio has also been confirmed numerically.

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Choon Sik Shin

A computational study of thrust vectoring control using dual throat nozzle

Visualization of Hysteresis Phenomenon of Shock Waves in Supersonic Internal Flow

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