• Title/Summary/Keyword: 고압공기 공급원

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Design and Manufacture of the air mixing system for supersonic ground test facility (초음속 지상추진시험설비의 공기 혼합시스템 설계 및 제작)

  • Lee, Yagn-Ji;Kang, Sang-Hun;Yang, Soo-Seok
    • Aerospace Engineering and Technology
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    • v.7 no.1
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    • pp.40-48
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    • 2008
  • Air mixing system which is composed of air pressure control system, hot pipe system and air mixer, is the facility for mixing hot air($1000^{\circ}C$, 10kg/s) from storage air heater (SAH) and decompressed air($20^{\circ}C$, 15kg/s) from high pressure air supply system. Air pressure control system reduce the pressure of the air, from 32MPa to 3.5 MPa and supply the decompressed air to air mixer. The hot pipe system supply hot air from SAH to air mixer which mix hot with the decompressed air from air pressure control system. Fully mixed air flow rate is 25kg/s and mixed temperature is up to $400^{\circ}C$. So, we can expand the operating envelop of the supersonic ground test facility to low Mach number and low altitude region.

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Preliminary Design of Supersonic Ground Test Facility (초음속 지상 추진 시험설비의 기본설계)

  • 이양지;차봉준;양수석;김형진
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2003.10a
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    • pp.13-19
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    • 2003
  • A supersonic ground test facility to develop Ramjet and SCRamjet(Supersonic Combustion Ramjet) engine should be able to simulate high altitude and high Mach number conditions including air total pressure, oxygen level and specific heat ratio at the combustion chamber entrance. The test facility also should simulate the effect of oblique shock wave caused by the flight vehicle. The test facility developed in this study is supersonic free-jet blowdown type, which consists of high pressure air supply source(maximum pressure=32MPa), air heater(vitiation type), supersonic diffuser, ejector, and test chamber(nozzle exit dimension=200mm$\times$200mm).

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Preliminary Design of Supersonic Ground Test Facility (초음속 지상 추진 시험설비의 기본설계기법 연구)

  • 이양지;차봉준;양수석;김형진
    • Journal of the Korean Society of Propulsion Engineers
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    • v.7 no.4
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    • pp.53-62
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    • 2003
  • A supersonic ground test facility to develop Ramjet and SCRamjet(Supersonic Combustion Ramjet) engine should be able to simulate high altitude and high Mach number conditions including air total pressure, oxygen level and specific heat ratio at the combustion chamber entrance. The test facility also should simulate the effect of oblique shock wave caused by the flight vehicle. The test facility developed in this study is supersonic free-jet blow down type, which consists of high pressure air supply source(maximum pressure=32MPa), air heater(vitiation type), supersonic diffuser, ejector, and test chamber(nozzle exit dimension=200mm${\times}$200mm).

Starting Characteristics Study of Scramjet Engine Test Facility(SETF) (스크램제트 엔진 시험설비의 시동특성 연구)

  • Lee, Yang-Ji;Kang, Sang-Hun;Oh, Joong-Hwan;Yang, Soo-Seok
    • Journal of the Korean Society of Propulsion Engineers
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    • v.15 no.2
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    • pp.15-22
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    • 2011
  • Unlike most aerodynamic wind-tunnel, Scramjet Engine Test Facility(SETF) of Korea Aerospace Research Institute should simulate enthalpy condition at a flight condition. SETF is a blow-down type, high-enthalpy wind tunnel. To attain a flight condition, a highly stagnated air comes into the test cell through a supersonic nozzle. Also, an air ejector of the SETF is used for simulating altitude conditions of the engine, and facility starting. SETF has a free-jet type test cell and this free-jet type test cell can simulate a boundary layer effect between an airplane and engine using facility nozzle, but it is too difficult to predict the nature of the facility. Therefore it is required to understand the starting characteristics of the facility by experiments. In this paper, the starting characteristics of the SETF and modifications of the ejector are described.

Starting Characteristics Study of Scramjet Engine Test Facility(SETF) (스크램제트 엔진 시험설비의 시동특성 연구)

  • Lee, Yang-Ji;Kang, Sang-Hun;Oh, Joong-Hwan;Yang, Soo-Seok
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2010.11a
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    • pp.451-458
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    • 2010
  • Unlike most aerodynamic wind-tunnel, Scramjet Engine Test Facility(SETF) of Korea Aerospace Research Institute should simulate enthalpy condition at a flight condition. SETF is a blow-down type, high-enthalpy wind tunnel. To attain a flight condition, a highly stagnated air comes into the test cell through a supersonic nozzle. Also, an air ejector of the SETF is used for simulating altitude conditions of the engine, and facility starting. SETF has a free-jet type test cell and this free-jet type test cell can simulate a boundary layer effect between an airplane and engine using facility nozzle, but it is too difficult to predict the nature of the facility. Therefore it is required to understand the starting characteristics of the facility by experiments. In this paper, the starting characteristics of the SETF and modifications of the ejector are described.

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Development of the Scramjet engine Test Facility(SeTF) in Korea Aerospace Research Institute (한국항공우주연구원 스크램제트 엔진 시험설비의 개발)

  • Lee, Yang-Ji;Kang, Sang-Hun;Oh, Joong-Hwan;Yang, Soo-Seok
    • Journal of the Korean Society of Propulsion Engineers
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    • v.14 no.3
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    • pp.69-78
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    • 2010
  • Korea Aerospace Research Institute started on design and development of a hypersonic air-breathing engine test facility from 2000 and completed the test facility installation in July 2009. This facility, designated as Scramjet engine test facility(SeTF), is a blow-down type high enthalpy wind tunnel which has a pressurized air supply system, air heater system, free-jet test chamber, fuel supply system, facility control/measurement system and exhaust system. In this paper, details of the specifications, and configuration of the SeTF are described. For verifying characteristics of the SeTF, wind tunnel tests are now on progress and some of the data are also described.

흡입 공기를 이용하는 고체 로켓 추진기관

  • 이태호
    • Journal of the KSME
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    • v.31 no.7
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    • pp.652-656
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    • 1991
  • 일반적으로 로켓 추진기관이라고 하면 외부로부터의 산소 공급없이, 추진제라고 불리는 물질이 연소할 때 발생하는 고온 고압의 연소가스를 고속으로 노즐로 통과시켜 추력을 얻는기관을 말 한다. 연소는 산소와의 화합반응이 급격히 일어날 때 일어나는 현상이므로 외부로부터 산소공 급이 없다는 것은, 추진제 자체에서 산소공급이 가능하다는 것을 의미한다. 즉, 추진제는 그 자 체가 흔히 말하는 연료성분과 산소를 공급할 수 있는 산소화합물을 같이 묶어둔 물질이어야 한다. 그러나 지구를 둘러싸고 있는 대기에는 산소가 20%나 포함되어 있으며, 이 무궁무진한 산소를 이용하지 않는다는 것은 여러 면에서 손실임을 쉽게 알 수 있을 것이다. 그럼에도 불구 하고 이를 이용하지 못하고 있었음은 그 나름대로의 어려움이 있었기 때문일 것이다. 그러나 인간의 노력과 연구로 불가능했던 많은 사실도 가능하게 된 것이 헤아릴 수 없이 많아지고 있음 또한 주지의 사실이다. 로켓 추진기관 분야에서도 순수 연료 성분만을 로켓에 탑재하고 산소는 흡입되는 대기중의 것을 이용하자는 것이 새로운 연구분야로 각광을 얻고 있으며, 실제로 이러한 방법이 실용화되고 있다. 이와 같이 흡입공기를 산소원으로 하는 추진기관을 총칭 램제트 추진 기관이라고 한다.

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A study on Preventive Measures for Fire and Explosion Accidents During Acetic Acid Handling in Manufacturing the Semiconductor Material (반도체 소재 제조 공정에서 아세트산 취급 작업 시 발생한 화재·폭발 사고 예방대책에 관한 연구)

  • Dae Joon Lee;Sang Ryung Kim;Sang Gil Kim;Kyo Shik Park;Joon Won Lee
    • Journal of the Korean Institute of Gas
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    • v.27 no.2
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    • pp.65-70
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    • 2023
  • Flammable materials used in semiconductor supply facilities are manufactured at high temperatures and high pressures, and as the semiconductor industry becomes more sophisticated and larger, the amount of materials used is rapidly increasing. Recently, fires and explosions occurred during the handling of acetic acid, which is a raw material for making products in the semiconductor material manufacturing process. Overall problems such as lack of air inflow prevention for fire and explosion prevention were identified. Therefore, in this study, in order to accurately identify the cause of the accident and prevent fire and explosion that may occur in the process of handling large amounts of flammable liquids, opinions from various perspectives, such as construction of facilities such as hoppers, installation of AOPS components, and change in workers' perceptions would like to present.

The Study on Operability Improvement of the start motor for Auxiliary Power Unit of Rotorcraft (회전익 항공기 보조동력장치 시동모터 운용성 개선연구)

  • Lee, Gwang-Eun;Kang, Byoung-Soo;Na, Seong-Hyeon
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.22 no.2
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    • pp.774-780
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    • 2021
  • The auxiliary power unit (APU) of a rotorcraft starts the engine during operation/flying. The APU is composed of a gas turbine engine type. The starting principle of the component is that the electric start motor generates the power required for starting by rotating the shaft. In this study, quality improvement was performed by applying an over-running clutch (ORC) between the APU and the starter motor to secure the operability of the starter motor of the APU mounted on the rotorcraft. The starter motor has the main role of starting the APU, but during operation, it is rotated without load by the rotational force of the APU gear shaft, resulting in friction at the brush. This phenomenon causes abrasion of the brush of the starter motor. Consequently, when the APU operation time increases, the brush life decreases, and the operability of the APU is affected. In this study, an ORC that separates the interlocking between the start motor brush abrasion and the APU operation time was applied to improve the operability/durability of the APU starter motor. The effect was verified through a test, and the technical feasibility of the design change was analyzed.