• Title/Summary/Keyword: 고공환경 엔진시험설비

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Altitude Engine Test (고공 환경 엔진 시험)

  • Lee Jin-Kun;Kim Chun-Taek;Yang Soo-Seok;Lee Dae-Sung
    • Journal of the Korean Society of Propulsion Engineers
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    • v.9 no.4
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    • pp.104-111
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    • 2005
  • Gas turbine engines for aircraft are usually operated at the altitude condition which is quite different from the ground condition. In order to measure the precise performance data at the altitude condition, the engine should be tested at the altitude condition by a real flight test or an altitude simulation test with an altitude test facility. In this paper, the present state of the altitude test facility and the test technologies at urn(Korea Aerospace Research Institute) will be introduced.

High Altitude Test Facility for Small Scale Liquid Rocket Engine (소형 액체로켓엔진 고공환경 모사시험 설비)

  • Kim, Taewoan;Kim, Wanchan;Kim, Sunjin;Han, Yeoungmin;Ko, Youngsung
    • Journal of the Korean Society of Propulsion Engineers
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    • v.19 no.3
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    • pp.73-82
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    • 2015
  • A high altitude test facility which includes supersonic diffuser and ejector has been developed to simulate atmospheric pressure at 25 km using a 500 N class small scale liquid rocket engine. Also high altitude simulation test for the small scale liquid rocket engine was performed to verify the facility's performance. The experimental facility consists of high altitude simulation device, propellants supply system and coolant supply system. Low pressure condition corresponding to about 27 km(0.021 bar) altitude atmosphere was successfully simulated and a small scale liquid rocket engine thrust level was confirmed at the simulated condition by the high altitude test facility verification test.

Development of Thrust Measurement System for Small Turbojet Engine Altitude Test (초소형 터보제트엔진의 고공환경시험용 추력측정시스템 개발)

  • Lee, Kyung-Jae;Kang, Sang-Hun;Lee, Bo-Hwa;Song, Jae-Kang;Yang, Soo-Seok
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2009.05a
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    • pp.379-380
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    • 2009
  • 한국항공우주연구원 추진기관팀은 1999년 10월에 3,000 lbf 급 고공환경 엔진시험 설비를 갖추고 소형 가스터빈 엔진의 고공환경 성능시험에 이를 활용하고 있다. 하지만 새롭게 2008년부터 고공환경 성능시험을 진행하고 있는 엔진은 1,000 lbf 미만의 초소형 엔진으로써 기존 추력측정 시스템을 이용하여서는 정확한 추력의 측정을 보장할 수 없다. 본 논문에서는 초소형 엔진의 고공환경 성능시험 수행을 위한 추력대의 구축 과정을 다루고 있다.

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Study on Liquid Rocket Engine High Altitude Simulation Test (액체로켓엔진 고공환경 모사시험 연구)

  • Kim, Seung-Han;Moon, Yoon-Wan;Seol, Woo-Seok
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2010.11a
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    • pp.733-736
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    • 2010
  • Korea Aerospace Research Institute (KARI) performed the preliminary design of liquid rocket engine high-altitude simulation firing test facility for the development and qualification of LRE for the 2nd stage of KSLV-II. The engine high-altitude simulation firing test facility, which are to be constructed at Goheung Space Center, will provide liquid oxygen and kerosene to enable the high-altitude simulation firing test of 2nd stage engine at ground test facility. The high-altitude environment is obtained using a supersonic diffuser operated by the self-ejecting jet from the liquid rocket engine.

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The Air Flow Measurement and Prediction of Pressure Loss at Engine Inlet Duct (엔진 입구 덕트에서 공기유량 측정 및 압력손실 예측방법)

  • Lee, Bo-Hwa;Yang, In-Young;Yang, Soo-Seok
    • Aerospace Engineering and Technology
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    • v.6 no.2
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    • pp.29-34
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    • 2007
  • The purpose of this paper was to address the methodology of the air flow measurement using duct mach number that was considered area-weighed average obtained by total pressure and temperature measured at engine inlet duct. Without installing boundary rake, the prediction of air flow measurement was discussed. Actual air flow measurement and pressure value using pressure loss through inlet seal were described to improve the reliability and operability of altitude engine test facility.

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The Prediction of Air Flow and Pressure Loss at Inlet Duct (입구덕트 공기유량 및 압력손실 예측방법)

  • Lee, Bo-Hwa;Lee, Kyung-Jae;Yang, Soo-Seok
    • Journal of the Korean Society of Propulsion Engineers
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    • v.14 no.1
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    • pp.48-55
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    • 2010
  • The purpose of this paper was to address the methodology of the air flow measurement using duct mach number that was considered area-weighed average obtained by total, static pressure and temperature measured at engine inlet duct. Without installing boundary rake, the prediction of air flow measurement was discussed. Actual air flow measurement and pressure value using pressure loss through inlet seal were described to improve the reliability and operability of altitude engine test facility.

Study on the Humidity Effect on Gas turbine Engine Performances (습도가 엔진성능에 미치는 영향에 대한 실험적 고찰)

  • Lee, Bo-Hwa;Lee, Kyung-Jae;Yang, Soo-Seok;Kim, Chun-Taek
    • Aerospace Engineering and Technology
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    • v.9 no.2
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    • pp.98-104
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    • 2010
  • The moisture in the atmosphere exerts a lot of influence upon Gas turbine engine performances. There is a noticeable influence of wet air at the summer sea level, high flight mach number and low engine rpm increasingly. An altitude Engine Test Facility is used to accomplish the engine performance tests at dry air condition and wet air condition, through which engine performance results is revealed. Also, Gas turbine Simulation Program is used to predict the variation of engine performance due to inlet humidity. In the result, net thrust and specific fuel consumption measured -2.826% and 1.325%, respectively at wet air condition compared to dry air condition.

The introduction of Engine Performance Test for Miniature Turbojet Engine considering humidity effects (습도 영향을 고려한 초소형 터보제트 엔진 성능시험 소개)

  • Lee, Bo-Hwa;Lee, Kyung-Jae;Yang, Soo-Seok;Kim, Yu-Il
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2010.11a
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    • pp.335-338
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    • 2010
  • The moisture in the atmosphere exerts a lot of influence upon Gas turbine engine performances. There is a noticeable influence of wet air at the summer sea level, high flight mach number and low engine rpm increasingly. An altitude Engine Test Facility is used to accomplish the engine performance tests at dry air condition and wet air condition, through which engine performance results is revealed. In the result, net thrust and specific fuel consumption measured -2.826% and 1.325%, respectively at wet air condition compared to dry air condition.

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Conceptual Design of KSLV-II 3rd Stage Engine Test Facility (한국형발사체 3단 엔진 연소시험설비 개념설계)

  • Kim, Seung-Han;Chung, Yong-Gap;Han, Yeoung-Min
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2012.05a
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    • pp.484-488
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    • 2012
  • Korea Aerospace Research Institute (KARI) performed the conceptual design of rocket engine test facility for the development and qualification of the 3rd stage liquid rocket engine for KSLV-II. The 3rd stage rocket engine test facility, which are to be constructed at Naro Space Center, will supply propellants and high-pressure gases to engine for firing test at ground and altitude conditions. The altitude test condition is obtained using a supersonic diffuser operated by the self-ejecting jet from the liquid rocket engine.

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Small Turbojet Engine Test and Uncertainty Analysis (소형 터보제트 엔진 시험 및 불확도 분석)

  • Jun, Yong-Min;Yang, In-Young;Nam, Sam-Sik;Kim, Chun-Taek;Yang, Soo-Seok;Lee, Dae-Sung
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.30 no.5
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    • pp.118-126
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    • 2002
  • The Altitude Engine Test Facility(AETF) was built at the Korea Aerospace Research Institute and has been being operated for the gas turbine engines in the class of 3,000 lbf thrust. To enhance the confidence level of AETF to the international level, a series of studies and facility modification have been conducted to improve the measurement uncertainty and reliability. In this paper, some part of the facility evaluation tests performed with a single spool turbojet engine are introduced. Tests were performed simulating the flight conditions as steady state, sea level for various flight speeds (i.e., Mn=0.3, 0.5, 0.7, 0.9). The obtained test results are compared with the predicted values of the engine DECK. The measurement uncertainties of airflow, net thrust, fuel flow and SFC showed 0.791~0.914%, 0.851~1.706%, 1.372~7.348% and 1.642~5.205%, respectively. Thus, from this research, the improvement methods of uncertainties on AETF has been confirmed.