• Title/Summary/Keyword: 단일추진제 추력기(monopropellant thruster)

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Development of $H_2O_2$ Monopropellant Thruster with Monolith Support (모노리스를 이용한 과산화수소 단일추진제 추력기 개발)

  • An, Sung-Yong;Jin, Jung-Kun;Kwon, Se-Jin
    • Journal of the Korean Society of Propulsion Engineers
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    • v.11 no.1
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    • pp.18-26
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    • 2007
  • A development of monopropellant thruster for microsatellite that uses concentrated hydrogen peroxide is described. Catalyst, the most important component in the thruster, was prepared and coated on a monolith honeycomb. Performance evaluation of thruster was peformed by considering the efficiency of characteristic velocity and ignition delay. As a result, 96.0% of $C^*$ efficiency was obtained at designed propellant flowrate and steady state operating condition.

Development of Radiation Heat Shield of Monopropellant Thruster for Spacecraft (우주비행체 단일추진제 추력기의 복사 열차폐막 개발)

  • 이균호;유명종;최준민;김수겸
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.34 no.10
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    • pp.92-98
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    • 2006
  • An 1 lbf of NASA standard monopropellant thruster, MRE-1, is used for KOMPSAT (Korea Multi-Purpose Satellite) which is launched in 2006 and provides reliable and cost-effective means for attitude and maneuvering control system. The monopropellant thruster obtains required thrust by thermal decomposition process of propellant through catalyst bed. During firing, the decomposition plays a role of a heat source that may occur an excessive radiation heat transfer to peripheral structures and electronics in relatively low temperature condition.Therefore, the radiation heat shield is needed to prevent the critical radiative heat exchange between thruster and satellite during firing. This paper summarizes an overall development process of radiation heat shield from the design engineering up to the manufacturing.

Development of 1-N class Thruster System based on ADN Monopropellant (ADN 단일 추진제 기반 1N 급 추력기 시스템 개발)

  • Kim, Jincheol;Choi, Woojoo;Jo, Yeongmin;Jeon, Jonggi;Kim, Taegyu
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2017.05a
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    • pp.406-408
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    • 2017
  • Ammonium dinitramide (ADN) Low toxicity monopropellant based 1N class thruster and test equipment were developed. Compared with the hydrazine which used in existing satellite thruster, ADN is easy to handle and has excellent physical characteristics such as density and specific impulse. Due to these characteristics, ADN is attracting attention as an eco-friendly propellant. In this paper, 1N class thruster and thrust measurement system was designed for performance testing of ADN monopropellant. The composition of the propellant for the design and experiment was set at 11.2: 25.4: 63.4 for each of Methanol: $H_2O$: ADN.

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Catalytic Combustion of ADN-based High Performance Green Monopropellant (ADN 기반 고성능 친환경 단일추진제 촉매 연소)

  • Baek, Seungkwan;Monette, Maxime;Jung, Yeon Soo;Kim, Juwon;Kim, Wooram;Jo, Youngmin;Yoon, Hosung;Lee, Jaewan;Kwon, Sejin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2017.05a
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    • pp.739-745
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    • 2017
  • Research of ADN-based monopropellant thruster is progressed by developed countries in Europe to replace toxic hydrazine, and ADN-based monopropellant thruster system is the only system that was proved in space environment. In this research, ADN-based propellant and catalyst was fabricated to develop ADN-based monopropellant thruster, and catalytic combustion performance with fabricated propellant and catalyst were evaluated with DSC-TG analysis. Catalytic combustion of propellant and catalyst was determined with firing test using 5 N scale liquid monopropellant thruster.

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Performance Evaluation of a Micro Monopropellant thruster (초소형 단일 추진제 추력기 성능평가)

  • Lee, Jeong-Sub;An, Sung-Yong;Kwon, Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2008.05a
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    • pp.111-114
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    • 2008
  • The performance evaluation of a micro monopropellant thruster is described in this paper. The platinum which has stable physical and chemical properties is used as a catalyst. The ceramic form, named Isolite is chosen as a catalyst bed. Hydrogen peroxide whose concentration is up to 90wt% is supplied into thruster by direct pressurization with nitrogen gas. The $c^*$ efficient is calculated to evaluate the performance of a thruster. The pressure rise time, pressure decent time and reaction delay are synthetically considered.

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Development of 100, 250 N Commercial $H_2O_2$ Monopropellant Thruster for Space Launch Vehicles (발사체 자세제어를 위한 100, 250 N 급 상용 과산화수소 단일추진제 추력기 개발)

  • An, Sung-Yong;Kim, Jong-Hak;Yoon, Ho-Seung;Kwon, Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2009.11a
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    • pp.19-22
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    • 2009
  • Design and performance evaluation of $H_2O_2$ monopropellant thrusters to be used at attitude control of space launch vehicles were presented in this paper. Flight model thrusters were designed after two reactors for 100, 250 Newton were conformed at engineering model. Each thruster was evaluated by measurement of characteristic velocity, thrust, specific impulse, and pulse response times.

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Analysis of Monopropellant Thruster Plume Effects by DSMC (DSMC를 이용한 단일추진제 추력기 플룸의 영향 해석)

  • Lee, Kyun-Ho;Yu, Myoung-Jong;Kim, Su-Kyum;You, Jae-Ho
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2007.04a
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    • pp.179-182
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    • 2007
  • The new KOMPSAT in preliminary design phase will utilize 4.45 N monopropellant thrusters for attitude and orbit control. In this paper, a numerical plume analysis is performed to verify the effects of thruster plume on the satellite with a 3-D satellite base region model by DSMC. As a result, plume behaviors such as overall plume temperature, total density and thermal radiation to solar array are estimated.

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Experimental approach for catalyst bed sizing of liquid propellant thruster (50 Newton 급 액체 추력기의 촉매베드 사이징)

  • An, Sung-Yong;Kwon, Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2008.05a
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    • pp.145-148
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    • 2008
  • A 50 Newton monopropellant thruster being developed for attitude control in a variety of aerospace application systems is described in this paper. A scaled down thruster with platinum on aluminum oxide in the reaction chamber was tested to determine the catalyst capacity. A scaled up thruster, was designed and fabricated using data obtained on small scale device, was evaluated by decomposition efficiency based on temperature, efficiency of characteristic velocity, and measurement of thrust. The performance of a scaled up thruster was 42 Newton in thrust, 98 % in efficiency of characteristic velocity, and 123 sec in specific impulse at sea level.

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Experimental approach for catalyst bed sizing of liquid propellant thruster (액체추력기 촉매베드 크기 결정을 위한 실험적 방법)

  • An, Sung-Yong;Kwon, Se-Jin
    • Journal of the Korean Society of Propulsion Engineers
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    • v.12 no.3
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    • pp.24-33
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    • 2008
  • A 50 Newton monopropellant thruster being developed for attitude control in a variety of aerospace application systems is described in this paper. A scaled down thruster with platinum on aluminum oxide in the reaction chamber was tested to determine the catalyst capacity. A scaled up thruster which was designed and fabricated using data obtained from a small scale device was evaluated by its decomposition efficiency based on the temperature, the efficiency of characteristic velocity, and the measurement of thrust. The performance of a scaled up thruster was marked by a measured thrust of 42 Newton, 98 % efficiency of the characteristic velocity, a specific impulse of 123 sec at sea level.

Development of High Thrust $H_2O_2$ Monopropellant Thruster for Reaction Control System of Space Launch Vehicles (발사체 자세제어 적용을 위한 고추력 과산화수소 단일추진제 추력기 개발)

  • An, Sung-Yong;Kim, Jong-Hak;Yoon, Ho-Seung;Kwon, Se-Jin
    • Journal of the Korean Society of Propulsion Engineers
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    • v.14 no.1
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    • pp.1-10
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    • 2010
  • Design and performance evaluation of $H_2O_2$ monopropellant thrusters to be used at reaction control of space launch vehicles were presented in this paper. Design thrust level was determined as 100, 250 Newton which is nominal thrust level for commercial space launch vehicles. Qualification thruster models including solenoid valves were developed after the reactor design were evaluated at engineering thruster models. Each thruster was evaluated by measurement of characteristic velocity, thrust, specific impulse, and pulse response times at sea level test condition.