• Title/Summary/Keyword: 연료량(propellant budget)

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정지궤도 통신위성의 추진시스템 개념설계 연구

  • Park, Eung-Sik;Park, Bong-Kyu;Kim, Jeong-Soo
    • Aerospace Engineering and Technology
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    • v.1 no.1
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    • pp.55-64
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    • 2002
  • A conceptual design of propulsion system for a geosynchronous communication satellite with 12 years design life is presented in this paper. Propellant mass budget for the design life is calculated using total velocity increment (ΔV) flowed-down from mission requirement analysis. Sizes of the fuel and oxidizer tank are derived based on the calculated propellant mass budget, and mass of the pressurant as well as the size and pressure of pressurant tank are calculated too. Thruster positioning, number of rocket engines, and position of tank are determined through Trade-Off Study with Structure & Mechanical Subsystem. Propulsion system configuration and its schematics are presented finally.

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다목적실용위성 1호 태양지향모드에서의 연료 절감을 위한 퍼지제어기 설계

  • Choi, Hong-Taek;Han, Jung-Youp
    • Aerospace Engineering and Technology
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    • v.1 no.1
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    • pp.97-105
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    • 2002
  • The mission life of a satellite determines the amount of fuel required on-board, while the total mass requirement limits the fuel to be loaded. Hence, for the design of thruster control loop, not only the satellite pointing accuracy but the saving of fuel is to be considered. In this paper, a two-step fuzzy controller is proposed for the thruster control loop to save fuel consumption. This approach combines requirements for pointing control accuracy with minimum fuel consumption into a fuzzy controller design. To demonstrate this approach, we have designed a fuzzy controller for the Sun Pointing Mode of KOMPSAT-1. The performance of this fuzzy controller design is compared with that of PD controller used for KOMPSAT-1.

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A Conceptual Design of the Dual-Mode Propulsion System for a Geosynchronous Communication Satellite (이중모드시스템을 적용한 정지궤도 통신위성 추진시스템 개념설계)

  • 박응식;김정수;양군호;김중표
    • Journal of the Korean Society of Propulsion Engineers
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    • v.4 no.4
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    • pp.98-106
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    • 2000
  • A conceptual design of propulsion system for a geosynchronous communication satellite with 12 years design life is presented in this paper. Propellant mass budget for the design life is calculated using total velocity increment ($\Delta$V) flowed-down from mission requirement analysis. Sizes of the fuel and oxidizer tank are derived based on the calculated propellant mass budget, and mass of the pressurant as well as the size and Pressure of pressurant tank are calculated too. Thruster positioning, number of rocket engines, and position of tank are determined through trade-off study with Structure & Mechanical Subsystem. Propulsion system configuration and its schematics are presented finally.

  • PDF