• Title/Summary/Keyword: Crankcase

검색결과 36건 처리시간 0.026초

LNG 연료추진 선박용 크랭크실 릴리프 밸브 스프링의 설계 및 평가 (Design and Evaluation of a Crankcase Relief Valve Spring for LNG-Fueled Ships)

  • 이효렬;안중환;안병훈;김화영
    • 한국생산제조학회지
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    • 제24권3호
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    • pp.263-269
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    • 2015
  • Growing concerns regarding air pollution have recently increased the demand for liquefied natural gas (LNG) fueled ships. LNG-fueled ships are equipped with an explosion relief valve in the crankcase to relieve excessive pressure and stop flames from emitting from the crankcase. In this study, a finite element analysis was conducted to evaluate the crankcase relief valve disk spring design using an ANSYS Workbench, v.15. The setting pressure, leak and explosion test performed by european standard EN14797 to evaluate function and mechanical integrity of crankcase relief valve. The tests results indicate that the pressure of the crankcase relief valve is 3.05 bar, with no air leakage at 2.97 bar. Finally, the mechanical integrity of the crankcase relief valve was confirmed through an explosion test in which the valve plate assembly, flame arrester, and other parts were safe from fracturing.

Moving Mesh를 이용한 PCV 밸브의 내부유동 수치해석 (A numerical analysis for internal fluid flow of a PCV valve by using moving mesh)

  • 이종훈;최윤환;이연원
    • 동력기계공학회지
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    • 제9권2호
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    • pp.40-44
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    • 2005
  • A great deal of exhaust gas inside a combustion room goes out through exhaust pipe but residual gas, is called "Blowby gas", enters the crankcase through a small gap between the piston and the cylinder wall. Here, if the crankcase isn't vented, this causes many bad effects such as lubricant oil contamination, corrosion by that and crankcase explosion by rising pressure. So, most automobiles are constituted with a PCV (Positive Crankcase Ventilation) system to prevent previous problems. PCV valve is the most important part in this ventilation system. When companies are manufacturing new engines, engineers are designing it depending on their experiments than theoretical knowledge. Mush efforts and times are needed for new development. This study will show quantitative results to increase the possibilities of reduction of developing time.

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Moving Mesh를 이용한 PCV 밸브의 내부유동 수치 해석 (A numerical analysis for internal fluid flow of a PCV valve by using moving mesh)

  • 이종훈;리리;김영국;최윤환;이연원
    • 한국전산유체공학회:학술대회논문집
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    • 한국전산유체공학회 2004년도 추계 학술대회논문집
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    • pp.19-24
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    • 2004
  • A great deal of exhaust gas inside a combustion room goes out through exhaust pipe but residual gas, is called 'Blow by gas', enters the crankcase through a small gap between the piston and the cylinder wall. Here, if the crankcase isn't vented, this causes many bad effects such as lubricant oil contamination, corrosion by that and crankcase explosion by rising pressure. So most automobiles are constituted with a PCV(Positive Crankcase Ventilation) system to prevent previous problems. PCV valve is the most important part in this ventilation system. When companies are manufacturing new cases, engineers are designing it depending on their experiments than theoretical knowledges. Much efforts and times are needed for new development. This study will show quantitative results to increase the possibilities.

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PCV 밸브의 스풀 동적거동에 따른 내부유동 특성에 관한 연구 (A STUDY ON INTERNAL FLOW CHARACTERISTICS OF PCV VALVE ACCORDING TO SPOOL DYNAMIC BEHAVIOR)

  • 이종훈;이연원;김재훈
    • 한국전산유체공학회:학술대회논문집
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    • 한국전산유체공학회 2005년도 추계 학술대회논문집
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    • pp.223-227
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    • 2005
  • A PCV valve is a part to control the flow rate of Blowby gas in a PCV system. A PCV system re-burns Blowby gas with fuel in a combustion chamber. Some gas enters to a crankcase room through the gap between piston ring and engine cylinder wall. This gas si called 'Blowby gas'. This gas causes many problems. In environmental view, Blowby gas includes about $25\~35\%$ hydrocarbon{HC) of total generated HC in an automobile. Hydrocarbon is a very harmful pollutant element in our life. In mechanical view, Blowby gas has some reaction with lubricant oil of crankcase room. Then, this causes lubricant oil contamination, crankcase corrosion and a decrease fo engine efficiency. Consequently, Blowby gas must be eliminated from a crankcase room. In this study, we simulated internal flow characteristics in a PCV valve according to spool dynamic behavior using local remeshing method And, we programmed our sub routine to simulate a spool dynamic motion. As results, spool dynamic behavior is periodically oscillated by the relationship between fluid force and elastic force of spring. And its magnitude is linearly increased by the differential pressure between inlet and outlet. Also, as spool is largely moved, flow area is suddenly decreased at orifice. For this reason, flow velocity is rapidly decreased by viscous effect.

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LNG 연료 추진 선박용 크랭크실 릴리프 밸브 화염방지기의 유동해석 및 폭발시험 (CFD Analysis and Explosion Test of a Crankcase Relief Valve Flame Arrester for LNG-fuelled Ships)

  • 이효렬;안중환;김동건;안병훈;김화영
    • 한국생산제조학회지
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    • 제25권3호
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    • pp.171-176
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    • 2016
  • Growing concerns about air pollution have led to increased demand for liquefied natural gas (LNG)-fuelled ships that have crankcases equipped with explosion relief valves to relieve excessive crankcase pressures and stop the flames emitted from the crankcase. The results of a computational fluid dynamics (CFD)-based feasibility analysis of the crankcase relief valve flame arrester design conducted using ANSYS CFX V14 showed that the inlet and outlet relief valve temperatures differed by $350-700^{\circ}C$. An explosion test was performed based on European standard EN14797 to evaluate the flame transmission and mechanical integrity of the valve. No flame transmission from the pressure vessel to the exterior was detected, and the mechanical integrity of the valve was confirmed. Thus, the relief valve components were found to be safe from the viewpoint of fracture.

PCV(Positive Crankcase Ventilation) 밸브의 유동특성에 관한 수치해석 (Computational Analysis of Flow Characteristics of a PCV Valve)

  • 이종훈;최윤환;이연원
    • 한국자동차공학회논문집
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    • 제13권4호
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    • pp.66-73
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    • 2005
  • A great deal of exhaust gas inside a combustion room goes out through exhaust pipe. But residual gas 'Blowby gas' enters the crankcase through a small gap between the piston and the cylinder wall. Here, if the blowby gas isn't vented, this causes many bad efffcts such as lubricant oil contamination, corrosion by that and crankcase explosion by rising pressure. So most automobiles are constituted with a PCV(Positive Crankcase Ventilation) system to prevent previous problems. PCV valve is the most important part in this ventilation system. When companies are manufacturing new cases, engineers are designing it depending on their experiments than theoretical knowledges. Much efforts and times are needed for new development. This study will show quantitative results to increase the possibilities for the optimal design.

자동차용 PCV밸브내 유통특성에 의한 밸브응력 및 변형에 미치는 입출구 차압의 영향 (The Effect of In-Outlet Differential Pressure on a Valve Body Stress and Deformation by the Blow-by Gas Flow Characteristic in the PCV valve for Automobile)

  • 권오헌;이연원;송상민;이종훈;강지웅
    • 한국안전학회지
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    • 제20권1호
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    • pp.36-41
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    • 2005
  • PCV(Positive Crankcase Ventilation) valve acts as a flow control valve to get a re-combustion of blow-by gas by having it flow from a crankcase to an inlet manifold suction tube. The blow-by gas of the crankcase should be eliminated or taken properly because it cause corrosion to critical parts, and contributes to increase crankcase pressure that can cause a drop in efficiency. The excessive stress and strain on the PCV valve that remove these harmful gas would be bring the difficult on the flow rate control and failure of the valve. Those condition inevitably induce the accident. Therefore, this study purpose is FEM evaluation of the stresses and deformation in the X3 PCV model according to the change of the differential pressure between inlet and outlet. From results, the maximum equivalent stresses increased linearly according to the increase of the differential pressure at the about 50mm from the inlet position and were under the yield strength of the valve. And the deformations were relatively small regardless of the in-outlet differential pressure variation.

크랭크실 환기장치의 오일 분리효율에 관한 연구 (A Study on Oil Separation Performance of Crank-Case Ventilation System)

  • 서준호;나병철;김진용;박승욱;임대순
    • 한국자동차공학회논문집
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    • 제16권3호
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    • pp.144-150
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    • 2008
  • This research aims to develop parts for advanced fuel/oil filtering re-circulation applicable to this kind of regulation proof engines. These parts can playa role of converting traditional air emission type crankcase into recovery type crankcase so that the engine can deal with environmental regulations, which do not allow minimal amount of toxic gas discharge. For the experiment, test method and specially made testing equipment are prepared. The results showed that oil separation efficiency of the cone type CCV(Crank Case Ventilation) system was higher than one of cylinder type both in bench test and in engine.

디젤 엔진에서 생성된 크랭크케이스 수트의 재활용 가능성 연구 (Study on the Possibility of Recycling Crankcase Soot from Diesel Engine)

  • 김수양;최재혁;노범석;김준수;강준;이원주
    • 해양환경안전학회지
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    • 제27권1호
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    • pp.179-186
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    • 2021
  • 본 연구에서는 선박용 디젤 엔진에서 발생되는 크랭크케이스 수트(soot)의 재활용 가능성을 검토하기 위하여, 수트를 배기관에서 발생하는 수트와 크랭크케이스에서 발생한 수트로 분류하고, 열처리에 따른 수트의 구조적 특성을 분석하였다. 열처리는 아르곤 가스 분위기에서 2,000℃와 2,700℃로 열처리를 수행하였고, 샘플의 구조적 특성 분석을 위해 라만분광법(Raman spectroscopy)과 고분해능 전자현미경(HRTEM)을 활용하였다. 또한, 취득한 HRTEM 이미지를 정량적으로 분석하기 위해 디지털 이미지 처리(Digital Image Processing) 기법을 활용하였다. 라만 분석 결과, 배기 수트와 2,700℃로 열처리한 수트에서 상대적으로 높은 G/D ratio가 나타났다. HRTEM 이미지에서는 두 수트 모두 유사한 형태의 흑연화된 나노 구조를 확인할 수 있었으나, 수트의 종류와 열처리 온도차에 따른 흑연화 정도의 차이를 정량적으로 도출할 수 없는 한계가 있었다. 이에 Digital Image Processing을 통해 HRTEM 이미지의 fringe의 길이와 곡률을 정량적으로 분석하였으며, 라만 분석과 일치하는 결과를 도출할 수 있었다. 이는 배기 수트가 크랭크케이스 수트에 비해 더 흑연화 된 구조를 가지는 것을 의미하며, 더 높은 온도에서 열처리 할 경우 흑연의 구조로 더 잘 발달함을 의미한다. 본 연구의 결과로 크랭크케이스 수트 역시 배기 수트와 마찬가지로 흑연계 재료로 재활용이 가능함을 확인하였다.

PCV 밸브의 설계 프로그램 개발에 관한 연구 (A Study on Development of Design Program for PCV Valve)

  • 이종훈;;이연원;김영덕
    • 한국마린엔지니어링학회:학술대회논문집
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    • 한국마린엔지니어링학회 2005년도 전기학술대회논문집
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    • pp.228-232
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    • 2005
  • Automobiles are very important as modern society is developed. Increase of the number of the automobiles cause environmental problem, that is, air pollution. So, many countries are adopting a environmental law. Automobile manufacturing companies have developing methods to prevent air pollution with increase of the efficiency of automotive engines. PCV(Positive Crankcase Ventilation) system which is one of them is made by the closed loop that consists of combustion chamber, crankcase, manifold suction tube and manifold. PCV valve is attached on manifold tube to control the flowrate of blowby gas. PCV valve is an important part in this system but it is difficult to design PCV valve which satisfies the required flowrate of blowby gas. In this study, our purpose is to help a PCV valve designer with the development of a design program. We used 4th order Runge-Kutta method and Bernoulli's equation to analyze the spool dynamic motion. By the comparison between our program and experiment, we think that a PCV designer can use our program in their work place.

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