• Title/Summary/Keyword: Plunger 타입

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Development and Performance Analysis of Gas Generator with Plunger-type Flow Control Valve for Ducted Rocket : Part II (Plunger 타입 유량조절장치를 적용한 덕티드 로켓용 가스발생기 개발 및 성능분석 : Part II)

  • Han, Seongjoo;Lee, Jungpyo;Cho, Sungbong;Khil, Taeock;Kim, Minkyum
    • Journal of Aerospace System Engineering
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    • v.15 no.3
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    • pp.87-92
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    • 2021
  • In this study, a numerical approach was utilized to observe the phenomena in the ground combustion test of a gas generator for a ducted rocket with a plunger-type flow control device. The design factors were also identified through the analysis. It was observed that the pressure increase without the adhesion of the combustion product at the discharge pipe was quite similar to the analysis assuming a cone-shaped erosive burning effect. The pressure increase in most cases was similar to the analysis results when assuming the change in discharge pipe area due to the adhesion of combustion products. Moreover, it was also established that for a given grain shape and discharge flow area, the effect of the adhesion of combustion products has a significant effect on the combustion chamber pressure for cases over n=0.45.

Development and Performance Analysis of Gas Generator with Plunger-type Flow Control Valve for Ducted Rocket : Part I (Plunger 타입 유량조절장치를 적용한 덕티드 로켓용 가스발생기 개발 및 성능분석 : Part I)

  • Lee, Jungpyo;Han, Seongjoo;Cho, Sungbong;Kim, Kyungmoo;Lim, Jaeil;Lee, Kiyeon
    • Journal of Aerospace System Engineering
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    • v.15 no.3
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    • pp.79-86
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    • 2021
  • For a preliminary study on a thrust-throttleable Variable Flow Ducted Rocket, a gas generator and flow control valve were developed, and ground combustion tests were performed. The gas generator and flow control valve operated at the required performance level for parameters, such as heat-resistance, combustion-time, pressure, and temperature. The combustion characteristics of a fuel-rich solid propellant mixed with Boron/MgAl/AP, etc., were also analyzed. A Plunger-type flow control valve was designed to control the discharge flow area, and it was confirmed that the flow control valve was able to control the combustion gas flow rate and pressure. However, due to the reduction of the discharge flow area caused by adhesion of combustion products, the combustion pressure continuously increased. The analysis of the pressure increase is covered in Part 2 of this paper.