• Title/Summary/Keyword: 엔진밸브

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Kinematic Analysis of a Continuously Variable Valve Actuation Mechanism with Movable Second Cam Center (2차 캠 중심 이동형 연속가변밸브 구동기구의 기구학 해석)

  • Kim, Do-Joong;Kim, Yong-Hyun
    • Transactions of the Korean Society of Automotive Engineers
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    • v.17 no.5
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    • pp.7-15
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    • 2009
  • This paper introduces a new variable valve actuation mechanism with movable second cam center. Valve lift and open duration can be continuously varied according to engine speed and load conditions. A new method to analyze the kinematic relations between the first and second cam profiles and valve motion are also introduced. Because of rocker motion of the second cam, conventional motion conversion program could not be used in this problem. An example shows continuous variations of valve motion and adequate ramp incorporation throughout all valve lift modes. Valve acceleration profile at the high lift mode is similar to that of conventional valvetrains. Contact geometry analysis of the mechanism gives basic information on the load conditions between the components.

A study on the characteristic of fuel shutoff valve for 75 $ton_f$ combustion chamber (75톤 연소기용 연료개폐밸브의 특성에 대한 고찰)

  • Lee, Joong-Youp;Lee, Soo-Yong
    • Aerospace Engineering and Technology
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    • v.11 no.1
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    • pp.84-90
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    • 2012
  • Fuel shutoff valve of a combustion chamber controls propellant mass flowrate of a rocket engine, by using pilot pressure and spring force. The developing fuel shutoff valve can be self sustained even though pilot pressure is removed in an actuator. Therefore, it is necessary to analyze the characteristics of the forces with respect to the opening and closing of the valve in order to evaluate its performance. In light of this, the valve has been designed to adjust the control pressure for the opening of the poppet and to determine the working fluid pressure at which the valve starts to close. This paper also has been predicted flow coefficient of the valve by Fluent(ver. 12.0) CFD analysis. Various results from the prediction and the analysis have been compared with experiments.

Transient Analysis of a Liquid Rocket Engine System Considering Thrust Control (추력 제어를 고려한 액체로켓 엔진시스템 과도해석)

  • Park Soon-Young;Choi Hwan-Seok;Seol Woo-Seok
    • Journal of the Korean Society of Propulsion Engineers
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    • v.8 no.4
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    • pp.67-75
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    • 2004
  • It is essential to develop a transient analysis model for the turbopump-fed type liquid rocket engine development, especially for deriving the number of test and its parameters. In this study we proposed a mathematical model of turbopump-fed type liquid rocket engine, and inspected transient mode changes of a rocket engine according to variations of thrust control valve opening ratio. To verify the results, we solved the same problem with AnaSyn software from Russia, and concluded that the results of transient code we developed deviated within 2% from AnaSyn results. Also, using the transient engine analysis code we showed the possibility to find out the system level design Parameters of the components. For example, we modeled a pressure stabilizer which is used to control the consistency of mixture ratio in the gas generator as forced damping system, and found the stability range of the natural frequency and the damping ratio with the transient engine system analysis code.

Dynamic Performance of Natural Gas Injection Valve for Heavy-Duty Power Generation Engine - Part I (발전용 대형엔진용 천연가스 분사밸브 동특성 연구 (I))

  • Choi, Young;Kim, Yong-Rae;Lee, Seok-Whan;Kim, Chang-Gi
    • Journal of the Korean Institute of Gas
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    • v.19 no.6
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    • pp.15-21
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    • 2015
  • Natural gas fuel has known to be very promising in terms of abundancy and economic value. Therefore it is widely treated as research topics in a variety field of production, storage and utilization. Natural gas has become one of the major sources for the power generation by using internal combustion engines(ICE). Development of natural gas fuel injection device should be preceded to realize a reliable natural gas fuel supply system for a MW class power generation reciprocating ICE. In this research, an injection valve which consists of solenoid and body part with a moving plate was designed and its dynamic performance was experimented in the engine-like environment. As a result of the experiments, linearity of flow rate was obtained and overall around 2ms of response time was observed at the pressure difference of 1bar. In addition, more than 100Liter/min(@2Hz) of gas flow rate was witnessed, which is expected to be adequate for the fuel supply system of a MW class natural gas engine.

Technological Development of Engine for Automobiles (자동차 기관의 최신기술)

  • 조진호
    • Journal of the korean Society of Automotive Engineers
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    • v.9 no.4
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    • pp.15-22
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    • 1987
  • 이상 최근 10년 사이 현저하게 보여준 엔진관계의 신기술과 그 배경 등을 돌아 보았을 때 발전하 는 가운데 특히 4륜차용 2사이클 엔진의 몰락이나 엔진의 주요 부품인 기화기의 쇠태는 그 어느 것이나 시대의 요구에 대한 기술의 한께 혹은 신기술의 개발 템포에 추종키 여려웠던 때문인 것 으로 생각된다. 2사이클 엔진은 비출력이 높고 밸브기구가 없어서 구조가 간단한 등의 장점이 있는 반면 배출가스대책(특히 HC), 경부하시의 부정연소 등의 문제를 가지고 있어 4륜차용으로 서는 배출가스규제를 계기로 SAAB(스웨덴), DKW(서독)의 2사이클 엔진이 자취를 감추게 되었 고 현재 남아있는 것은 일본의 경트럭용 엔진에 지나지 않는다. 또 기화기에 대해서도 배출가 스규제에 대한 대응에 밀려 공연비의 제어성, 고도에 대한 보정성, 내열신뢰성, 제어성, 고도에 대한 보정성, 내열신뢰성, 운전성 등의 요구에 엄해진 반면 흡기포트내(PI), 혹은 흡기관 중양부 내(SPI) 가솔린분사방식에 눌려서 가변벤투리식 등도 미국(1982), 일본(1983)에서 발표되었으나 1985년형의 미국차 엔진에는 기화기의 정착율이 50%에 지나지 않는등승용차용 분야에서는 그 사용이 점차 줄어두는 추세에 있다.

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Gas Generator를 이용한 액체 로켓 터보펌프 엔진 시스템의 동특성 해석

  • 정영석;임석희;이한주;조기주;오승협
    • Bulletin of the Korean Space Science Society
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    • 2003.10a
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    • pp.88-88
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    • 2003
  • 로켓 엔진 시스템에는 가압가스로 추진제를 엔진으로 공급하는 가압 시스템과 터보펌프를 이용해 엔진으로 고압의 추진제를 공급하는 터보펌프 시스템으로 나눌 수 있으며 터보펌프 시스템은 다시 Gas Generator를 이용하는 개방형 엔진과 Prebumer를 이용한 폐쇄형 엔진인 다단 엔진으로 구분할 수 있다. 로켓의 엔진 시스템은 Turbine, Turbopump, Gas Generator, Thrust Chamber, Tube, Valve, Propellant Tank 등 각 구성품 간에 서로 상호간섭이 매우 심한 공정이다 로켓 엔진 시스템은 이와 같은 상호간섭에 의해 추력 제어 및 혼합비 제어, 추진제 소진 제어 적용 시 정확하고 강인한 제어를 수행하여야 한다. 이를 위해 정확한 동특성 모델을 구축하는 것이 중요하며 모델을 통해 적절한 제어 시스템을 선택하여야 한다. 그러나 현재 국내에는 이에 대한 연구가 미미하며 해외의 경우 로켓은 특수 분야에 속함으로 공개되어 있지 않다. 로켓에 대한 개발 연구에 있어서는 위와 같은 작업이 선행되어야 하며 이에 대한 선행 연구로 한국항공우주연구원에서 Gas Generator를 이용한 개방형 터보펌프 엔진 시스템에 대한 연구를 진행하고 있다. 본 논문에서는 Gas Generator를 이용한 개방형 터보펌프 엔진시스템에 대한 동특성 모델을 구성하였다. 배관부, 터빈, 펌프, 밸브, Gas Generator, 재생냉각, 추력연소실 등 엔진 시스템을 구성하는 구성품에 대한 동특성 모델을 구성하였으며 이를 matlab의 simulink를 통해 각 구성품을 연결하여 최종 엔진시스템의 동특성 모델을 구성하였다. 구성된 동특성 모델을 통해 각종 변화(추진제 밀도 변화, 추력 변화, 혼합비 변화 등)에 대한 엔진 시스템 변화를 예측하여 정확한 엔진 시스템에 대한 이해를 넓혔으며 추력 제어 및 혼합비, 추진제 소진 제어를 최적으로 할 수 있는 제어 시스템 구축을 위한 기초 자료로 이용할 수 있을 것이다.

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Transient performance behaviour of the CRW type UAV propulsion system during flight mode transition considering valve operation (CRW형식 무인항공기 추진시스템의 밸브 작동을 고려한 비행모드 전환에 따른 천이 성능특성 연구)

  • Kong Chanduk;Park Jong-Ha;Yang Soo-Seok
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • v.y2005m4
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    • pp.219-224
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    • 2005
  • In order to investigate transient behaviour of the CRW(Canard Rotor Wing) type UAV(Uninhabited Aerial Vehicle) propulsion system during flight mode transition considering flow control valve operation, the propulsion system was modelled using SIMULINK commercial program. For transient simulation of the main engine system, the ICV(Inter-Component Volume) method was applied. The valve system is to control the gas flow of the rotary duct system and the main duct system, and the analysis was performed with an assumption that the total gas mass flow of the main engine is the same as summation of the rotary duct flow and the main duct flow, and with consideration of valve loss, flow rate and effective area in valve angle variation. The performance analysis was carried out during flight mode transitions from the rotary flight mode to the fixed wing flight mode and vice versa mode at altitude of 1Km, flight Mach number 0.1 and maximum engine rpm.

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A Study on Engine Performance at the Intake Air Compensation by Supercharging in the Low Speed Diesel-Atkinson Cycle (과급에 의한 흡입공기 보상 시 저속 디젤-아트킨슨사이클에서 엔진성능에 대한 연구)

  • Jang, Tae-Ik
    • Journal of Advanced Marine Engineering and Technology
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    • v.35 no.8
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    • pp.1009-1015
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    • 2011
  • In this study, in the high expansion cycle was conduced by variable valve timing system composition to close intake valve late, and in the intake air reduction on the low compression was solved by supercharging pressure. In this wise, by constituting Diesel-Atkinson cycle, this study looked into a possibility of thermal efficiency improvement. As a result, there was improvement in thermal efficiency and output in a whole range of closing timing from ABDC $40^{\circ}$ to ABDC $80^{\circ}$. However, after ABDC $70^{\circ}$ of closing timing, the thermal efficiency increase was getting smaller. As the result of the study, the optimum intake valve closing timing was about ABDC $70^{\circ}$, high loading territory of engine was more effective than low loading territory, and engine operation in middle loading territory was stable. At this time, brake thermal efficiency was 12.5% higher than ordinary engine on average.

Research Activities on Subsystem Technologies of PDE Propulsions (PDE 추진기관 부체계 기술 연구 동향)

  • Jin, Wan-Sung;Kim, Ji-Hoon;Hwang, Won-Sub;Kim, Jeong-Min;Choi, Jeong-Yeol
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.43 no.8
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    • pp.712-721
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    • 2015
  • Pulse Detonation Engine (PDE) has been considered as a future propulsion system for broad range of operation and higher thermal efficiency. Various subsystem technologies have been studied for more than decade to improve the performance of the potential system. New valve systems has been developed for the stable operation at high frequency including inflow-driven valve, rotary valve and valveless system. To foster the detonation initiation with a little ignition energy, plasma ignition method and DDT (deflagration to detonation transition) acceleration method such as swept ramp mechanism have been studied. Fluidic nozzle system and other nozzle system are the ongoing research topics to maximize the propulsion performance of the PDE. Present paper introduces the state of the art of PDE subsystem technologies developed in recent years.

Performance Development of Coolant Core for Range Extender Engine Using CFD Simulation (전산유체해석을 통한 RE엔진 냉각수 코어의 성능 개발)

  • Kim, Chang-Su;Park, Sung-Young
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.14 no.5
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    • pp.2075-2080
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    • 2013
  • A Coolant core for Range Extender engine has been developed using CFD technique. Coolant by-pass has been added to the improved model to reduce temperature near and between exhaust valve. Due to the increased coolant flow-rate both around the second cylinder block and between exhaust valves, improved model shows no significant stagnant flow compared with base model. Finally, the improved model shows improved heat transfer coefficients near exhaust valves, and 5% reduced pressure-drop through the coolant core. Reduced pressure-drop may increase the fuel efficiency by reducing the load of a coolant pump.