• Title/Summary/Keyword: 발사대

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유도탄 체계의 발사대 연구개발

  • Bae, Yeon-Suk;Kim, Jun-Ho
    • Defense and Technology
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    • no.12 s.178
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    • pp.70-79
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    • 1993
  • 이 글은 유도탄 체계의 발사대 연구개발에 따른 발사대 분류, 특징, 설계, 연구분야를 설명함으로써 군사목적과 과학대상의 발사대를 이해하는데 도움을 주는 것으로, 국과연 유도무기학술대회의 연구 논문 내용이다

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우주발사체 개발을 위한 발사대 케이블마스트(CABLE MAST) 사례조사

  • Lee, Jeong-Ho;Lee, Yeong-Ho;Kim, Yong-Uk;O, Seung-Hyeop
    • The Bulletin of The Korean Astronomical Society
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    • v.37 no.2
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    • pp.152.2-152.2
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    • 2012
  • 우주발사체 발사를 위해서는 발사대시스템 개발이 필수적이다. 발사대시스템은 기계설비와 추진제공급설비, 관제설비로 구성되며, 그 중 기계설비는 발사지지대(Launch Pad), 이렉터(Erector), 트랜스포터이렉터(Transport-Erector), 케이블마스트(Cable-mast), 자동체결장치(Auto-coupling Device) 총 다섯 부분으로 나눌 수 있다. 발사지지대는 발사 전까지 발사체를 지지하는 구조물로 발사체의 안전을 보장하고 공급배관 및 통신라인의 경로를 제공한다. 이렉터는 발사준비과정에서 수평으로 이송된 발사체를 2개의 대형 유압실린더를 사용하여 기립시키는 장비로 발사 취소 시 발사체를 수평으로 전환한다. 트랜스포터이렉터는 조립공간에서 조립을 마치고 최종점검이 완료된 발사체를 전용차량을 이용하여 발사대로 이동하고 발사체를 안전하게 잡아준다. 자동체결장치는 지상으로부터 발사체로 연결되는 추진제, 압축가스 등의 연결배관을 자동으로 연결/분리하는 장치이다. 케이블마스트는 우주발사체 상단부의 UCU-E(Umbilical Connectors Unit-Electrical)를 통해서 전기, 고압가스, 고온공기 등을 공급하기 위한 통로로 발사 전까지 발사체시스템과 지상장비와의 통신수단이다. 또한 발사체로 연결되는 라인들을 발사 시에 나오는 후류에 의한 충격으로부터 보호하고, UCU-E가 기계적으로 분리되도록 구성되어 있다. 본 논문은 기존에 적용된 케이블마스트에 대한 구성, 기능 및 운용절차에 관한 것으로, 현재 진행 중인 한국형발사체 개발을 위한 기초 자료조사로 활용하고자 한다.

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Design Review of Launch Complex Thermostatting System (발사대 온도 제어 시스템 설계 분석)

  • Choi, Sang-Ho;Ok, Ho-Nam;Kim, Seong-Lyong;Kim, Young-Hoon;Kim, In-Sun
    • Aerospace Engineering and Technology
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    • v.11 no.1
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    • pp.57-67
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    • 2012
  • In this study, design of LCTS(Launch Complex Thermostatting System), which is one of ground support equipments for KSLV-I, is analyzed based on CDP(Critical Design Package) provided by Russia. The thermo-hydraulic design of air preparation compartment and hydraulic design of air heating & distribution compartment performed. Also numerical simulation of air heating & distribution compartment was conducted and compared with actual measurement data. Finally, insulation design of system was analyzed. Designing method of LCTS will be helpful in developing or modifying LCTS for new launch vehicle.

Design of launch pad for mitigating acoustic loads on launch vehicle at liftoff (우주발사체 발사 시 음향하중 저감을 위한 발사대 설계)

  • Tsutsumi, Seiji
    • The Journal of the Acoustical Society of Korea
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    • v.39 no.4
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    • pp.331-341
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    • 2020
  • At liftoff, launch vehicles are subject to harmful acoustic loads due to the intense acoustic waves generated by propulsion systems. Because these waves can cause electronic and mechanical components of launch vehicles and payloads to fail, predicting and mitigating acoustic loads is an important design issue. This article presents the latest information about the generation of acoustic waves and the acoustic design methods applicable to the launch pad. The development of the Japanese Epsilon solid launcher is given as an example of the new methodology for launch pad design. Computational fluid dynamics together with 1/42 scale model testing were performed for this development. Effectiveness of the launch pad design to reduce acoustic loads was confirmed by the post-flight analysis.

Basic Design of Propellant Ground Support Equipment and Flame Deflector for KSLV-II Launch Complex (한국형발사체 발사대시스템 추진제공급설비 및 화염유도로 설계)

  • Kang, Sunil;Oh, Hwayoung;Kim, Daerae
    • Journal of the Korean Society of Propulsion Engineers
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    • v.19 no.1
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    • pp.76-86
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    • 2015
  • KSLV-II, a new launch vehicle of Korea, requires a new launch complex(LC) for its own and proper launch operations. The new launch complex will be constructed in NARO Space Center neighboring KSLV-I launch complex for maximizing operation efficiency and economic matters. The launch complex consists of three ground support equipments, i.e., mechanical, electrical, and fuel in general. The fuel ground support equipment could be defined as a combination of systems for storage and supply of propellants and gases which are required by a launch vehicle. The compositions, functions and capabilities of fuel ground support equipment are introduced in this paper. In addition, basic design results of flame deflector configurations are included.

KSLV-I Plume Analysis Part III for the launch pad flame deflector performance (발사대 화염유도로 해석을 위한 KSLV-I 플룸 해석 3)

  • Hwang, Do-Keun;Nam, Jung-Won;Kim, Seong-Lyong;Kang, Sun-Il;Kim, Dae-Rae;Ra, Seung-Ho
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2010.11a
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    • pp.375-378
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    • 2010
  • Hot and high speed plume exhausted during KSLV-I flight test is cooled down by an amount of water ejected from 'gas deflector cooling system' of launch complex to reduce the effects on the launch vehicle and launch complex. In this study, simplified axisymmetric computational calculation with 2-phase is carried out to analysis the water injection effects on flow field.

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Day-to-Day Repeatability of the Navigation Solution and SNR from the GPS Receiver installed on KSLV-I (나로호에 탑재된 GPS 수신기의 항법해와 신호대잡음비의 일반복 특성)

  • Kwon, Byung-Moon;Moon, Ji-Hyeon;Shin, Yong-Sul;Choi, Hyung-Don;Cho, Gwang-Rae
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.39 no.8
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    • pp.774-787
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    • 2011
  • This paper deals with quantitative analysis about the characteristics of GNSS(Global Navigation Satellite System) signals contaminated with multipath signals and day-to-day repeatability of the navigation solution and SNR(Signal to Noise Ratio) caused by multipath signals using the collected data from GPS receiver installed on KSLV-I which was on standby on the launch pad at Naro Space Center. Since the GPS antennas, surrounding environments and GPS satellite orbits were very slightly changed with respect to the day, the repeating pattern of the solution and SNR caused by the multipath signals was verified from the collected data. Analytic result of the multipath effects and day-to-day repeatability of the navigation solution and SNR observed at the launch pad would be used for obtaining more stable performance of the GPS receiver when the satellite launch vehicles are on standby.

Filling Algorithm for Liquid Oxygen Filling System of Launch Complex (발사대 액체산소 공급시스템 충전 알고리즘)

  • Yu, Byung-Il;Park, Pyun-Gu;Kim, Ji-Hoon;Park, Soon-Young
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2011.11a
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    • pp.795-796
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    • 2011
  • During launch process, ground support facilities perform its duty in established processes by communications with launch vehicle. All ground support systems are operated independently or organically. This paper studied algorithm of propellant filling process and method for liquid oxygen filling system in launch operation in Naro space complex.

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Development of Technological Equipment Power Supply System in KSLV-II Launch Complex (한국형발사체 발사대시스템 지상장비전원공급계 개발)

  • Moon, Kyungrok;An, Jaechel;Jung, Ilhyung;Hong, IIhee;Kang, Sunil
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2017.05a
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    • pp.36-40
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    • 2017
  • The launch operation for a space launch vehicle(SLV) is to be conducted by the systematic operation between SLV and the Technological Equipment(TE) such as the mechanical, fuel, and electrical ground support equipment at launch complex(LC). The basic source for the operation of the instruments in LC is the electrical power supply system, Technological Equipment Power Supply System(TEPSS), which is one of the Launch Control System. Thus TEPSS should supply the required electrical power to TE with reliability. In this paper, TEPSS which supplies operational electrical power to TE is introduced.

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Verification of Control System Algorithms for Compressed Gas Supply Facility in Launch Complex (발사대 고압가스공급설비 제어시스템 알고리즘 검증)

  • An, Jae-Chel;Moon, Kyung-Rok;Oh, Il-Seok
    • Journal of the Korean Society of Propulsion Engineers
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    • v.23 no.2
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    • pp.95-103
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    • 2019
  • Control systems of compressed gas supply facility are responsible for storing and supplying compressed gases required for launch complex qualification test and launch operation. Most of the facilities that make up the launch complex require compressed gas for their operation. Therefore, such control systems should be developed and verified earlier rather than the other systems that constitute the launch complex. Each verification for hardware and software is performed separately. In particular, software verification of control algorithms loaded on the controller takes a lot of time and man power during the development period of the control system. Thus, specific test procedures and methods should be prepared in advance for efficient development. This paper introduces the configuration of a compressed gas supply facility and its control system with the verification procedure and results of major algorithms.