• Title/Summary/Keyword: satellite re-entry

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A Study on the trajectory prediction of the satellite re-entry in Korea (국내 위성추락 예측 연구)

  • Son, Ju-Young;Choi, Jin;Choi, Young-Jun;Bae, Young-Ho;Park, Jang-Hyun;Moon, Hong-Kyu;Yim, Hong-Suh;Kim, Myung-Jin;Lim, Yeo-Myeong;Hyun, Sung-Kyung;Kim, Ji-Hye;Jo, Jung Hyun
    • Journal of Satellite, Information and Communications
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    • v.8 no.4
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    • pp.142-149
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    • 2013
  • As we, human expand its everyday life boundary to the geosynchronous orbit, we have experienced frequent chance of the atmospheric re-entry and surface impact of space objects(satellite and space debris). Recently a satellite re-entry monitoring room in Korea has been operated to predict the time and the location of the re-entry of space objects. However, we do not have a domestic version of a numerical re-entry model for normal operation using TLE (Two line Element) information from the United States Strategic Command yet. The space information from the several space operation centers has been used to analyse the re-entry situations. In this paper, the re-entry time is calculated with TLE based on the several atmosphere models, the result is comprehensively analyzed, a new re-entry case model fitted from the result of the predicted satellite re-entry times by a new Rubber Sheet Shift Method used by the domestic satellite re-entry room is suggested.

Operation of Official Satellite Re-entry Monitoring Room in Korea (국내 위성추락상황실 운영)

  • Jo, Jung Hyun;Choi, Young-Jun;Yim, Hong-Suh;Choi, Jin;Son, Ju-Young;Jeon, Hyun-Seock;Bae, Young-Ho;Moon, Hong-Kyu;Kim, Myung-Jin;Park, Jang-Hyun;Lim, Yeo-Myeong;Kim, Ji-Hye;Hyun, Sung-Kyung
    • Journal of Satellite, Information and Communications
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    • v.8 no.4
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    • pp.150-158
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    • 2013
  • In Korea, the official monitoring of the atmospheric re-entry of satellites or space debris was initiated by the first operation of a re-entry situation analysis team for the 'Cosmos 1402' of the Soviet Union, which main body re-entered on January 23, 1983 and radio active core re-entered on February 7, 1983. After this incident, a task force team consisting Korea Astronomy and Space Science Institute (KASI), Korea Aerospace Research Institute (KARI) and other related institutes operated a situation monitoring group under the supervision of the Ministry of Science and technology (MOST) for the controlled re-entry of the Russian 'Mir' space station in 2001. The re-entry of the upper atmospheric weather satellite 'UARS' of United States had been monitored and analyzed by KASI on September 24, 2011. As the re-entry of the space object has been frequently occurred, the government officials and the experts from MEST (Ministry of Education, Science and Technology), KASI, KARI had an urgent official meeting to establish a satellite re-entry monitoring room in KASI and to give an operational authority to KASI in September 14, 2011. Under this decision, the satellite re-entry monitoring room in KASI has successfully executed the monitoring, data analyzing, official reporting, media contacting, and public announcing for the German satellite 'Roentgen' in October 2011, Russian space explorer 'Phobos-Grunt' in January 2012, Russian satellite 'Cosmos 1484' in January 2013, and European geodetic satellite 'GOCE' in November 2013 with the support from the Korean Air Force and KARI.

Re-entry Survivability and On-Ground Risk Analysis of Low Earth Orbit Satellite (저궤도 위성의 대기권 재진입 시 생존성 및 피해확률 분석)

  • Jeong, Soon-Woo;Min, Chan-Oh;Lee, Mi-Hyun;Lee, Dae-Woo;Cho, Kyeum-Rae;Bainum, Peter M.
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.42 no.2
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    • pp.158-164
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    • 2014
  • LEO(Low Earth Orbit) Satellite which is discarded should be reentered to atmosphere in 25 years by '25 years rule' of IADC(Inter-Agency Space Debris Coordination Committee) Guidelines. If the parts of satellite are survived from severe aerothermodynamic condition, it could damage to human and property. South Korea operates KOMPSAT-2 and STSAT series as LEO satellite. It is necessary to dispose of them by reentering atmosphere. Therefore this paper analyze the trajectory, survivability, casualty area and casualty probability of a virtual LEO satellite using ESA(European Space Agency)'s DRAMA(Debris Risk Assesment and Mitigation Analysis) tool. As a result, it is noted that casuality area is $15.2742m^2$ and casualty probability is 5.9614E-03 then will be survived 198.831kg.

Public's Recognition of the Space Object's Re-entry Situations and the National Space Disaster Management Policy (우리나라 국민의 우주위험인식 수준과 국가 재난정책)

  • Kim, Syeun;Cho, Sungki;Hong, Jeongyoo
    • Journal of the Korean Society of Safety
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    • v.31 no.6
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    • pp.84-92
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    • 2016
  • Since the mankind started its space mission, the number of artificial space objects has been increasing exponentially. It contains not just the space machines which are in use but the machines which are out of order. Meantime, those dead machines are being a serious danger, a real threat to human's lives and property because of it could re-enter into the earth's atmosphere and fall to the ground causing mega-disaster. As the number of space activities gets growing so far, the re-entry of the space objects will be a lot more happened in the future. Therefore, not just natural space object like asteroids but the artificial space object like artificial satellite and space station can cause the disaster by falling to the ground. To protect our nation and our property, the government has set up the space disaster management center in Korea astronomy and Space science Institute. In this study, we surveyed public's recognition of the space object's re-entry situation and analyzed it to contribute building national space disaster management policy.

Analyses for Re-entry Event and Survival characteristics according to Characters of Re-entering Space Objects (지구 재진입체의 특성에 따른 재진입사례 및 생존특성 분석)

  • Jeong, Soon-Woo;Min, Chan-Oh;Lee, Dae-Woo;Cho, Kyeum-Rae
    • Journal of Advanced Navigation Technology
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    • v.17 no.1
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    • pp.80-89
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    • 2013
  • The amount of object which reenter the Earth's atmosphere has been increasing after the Sputnik I launch in October 1957. Most of reentry objects were incinerated by aerodynamic heating so they hardly survive. But they may incur casualties and widespread property damages if they survive and fall to surface. The amount of reentry objects, such as Satellite, Rocket Booster, Pressure Tank, ISS shows continued growth as byproduct of space activities. Most of the re-entry objects are incinerated at between altitude of 50km~80km and 10%~40% of the objects are surviving and falling to the ground. Therefore, this paper try to piece together the reentry event and analysis the survival characteristics of re-entry object.

A Study of the Disposal Maneuver Planning for LEO Satellite (저궤도 위성의 폐기기동 계획 연구)

  • Seong, Jae-Dong;Kim, Hae-Dong;Choi, Ha-Yeon
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.44 no.4
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    • pp.352-362
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    • 2016
  • In this paper, a disposal maneuver which complies the space debris mitigation guideline was analysed for KOMPSAT-2 as an example of LEO satellite. Definition of disposal altitude which comply the '25 year rule', re-entry survivability analysis of KOMPSAT-2 parts inside and casualty area analysis were performed using STK and ESA's DRAMA. Finally, assuming that there were several survival objects during uncontrolled re-entry stage, the re-entry initial orbit elements which show the low casualty probability were found even if there were various uncertainties about the initial orbit. As a result, KOMPSAT-2 should be descended its altitude at least 43km or up to 105km to comply '25 year rule' and there were heavy or heat resistant survival objects which generated $4.3141m^2$ casualty area. And if RAAN of re-entry initial orbit was 129 degree, total casualty probability was lower than standard value of space debris mitigation guideline even if there were uncertainties about the initial orbit.

Conceptual design for a 5 kWe space nuclear reactor power system

  • Huaping Mei;Dali Yu;Shengqin Ma;Jiansong Zhang;Yongju Sun;Chao Chen;Meisheng He;Haixia Wang;Yang Li;Liang Wang;Taosheng Li;Jie Yu
    • Nuclear Engineering and Technology
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    • v.56 no.9
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    • pp.3644-3653
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    • 2024
  • Enhancing the capabilities of unmanned space exploration, such as satellite monitoring and space science missions, requires efficient and reliable nuclear power systems. A viable solution is found in the 1-10 kWe power level of space nuclear reactor power systems, offering advantages such as a manageable research and development process, and relatively low investment requirements. This paper introduces a conceptual design for a 5 kWe space nuclear reactor power system, outlining its components and characteristics. The study includes a thorough analysis of potential challenges, encompassing heat pipe failure accidents, re-entry scenarios, and weight estimation considerations. The results demonstrate that the proposed space nuclear reactor power system effectively meets the safety requirements. The total mass of the power system is estimated at approximately 1.5 tons, with a specific mass of around 300 kg/kWe. This research contributes valuable insights for the design of space nuclear reactor power systems operating within a similar power range.

Design of L-Band-Phased Array Radar System for Space Situational Awareness (우주감시를 위한 L-Band 위상배열레이다 시스템 설계)

  • Lee, Jonghyun;Choi, Eun Jung;Moon, Hyun-Wook;Park, Joontae;Cho, Sungki;Park, Jang Hyun;Jo, Jung Hyun
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.29 no.3
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    • pp.214-224
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    • 2018
  • Continuous space development increases the occurrence probability of space hazards such as collapse of a satellite and collision between a satellite and space debris. In Korea, a space surveillance network with optical system has been developed; however, the radar technology for an independent space surveillance needs to be secured. Herein, an L-band phased array radar system for the detection and tracking of space objects is proposed to provide a number of services including collision avoidance and the prediction of re-entry events. With the mission analysis of space surveillance and the case analysis of foreign advanced radar systems, the radar parameters are defined and designed. The proposed radar system is able to detect a debris having a diameter of 10 cm at a maximum distance of 1,576 km. In addition, we confirmed the possibility of using the space surveillance mission for domestic satellites through the analysis of the detection area.