• Title/Summary/Keyword: Common rail

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Simulation of High Pressure Common-rail Fuel Injection System (커먼레일 고압분사 시스템 수치 시뮬레이션)

  • 김홍열;구자예;나형규;김창수
    • Transactions of the Korean Society of Automotive Engineers
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    • v.6 no.5
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    • pp.162-173
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    • 1998
  • The high pressure common rail injection system offers a high potential for improving emmisions and performance characteristics in large direct diesel engines. High pressures in the common rail with electronic control allows the fuel quantity and injection timing to be optimized and controlled throughout a wide range of engine rpm and load conditions. In this study, high pressure supply pump, common rail, pipes, solenoid and control chamber, and nozzle were modeled in order to predict needle lift, rate of injection, and total injected fuel quantity. When the common rail pressure is raised up to 13.0 ㎫ and the targer injection duration is 1.0ms, the pressure drop in common rail is about 5.0㎫. The angle of effective pressurization is necessary to be optimized for the minimum pump drive torque and high pressure in common rail depending on the operating conditions. The characteristics of injection were also greatly influenced by the pressures in common rail, the areas of the inlet and exit orifice of the control chamber.

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A Study on the Performance Characteristic of Common Rail High Pressure Pump (커먼레일 시스템용 고압펌프의 성능 특성에 관한 연구)

  • Lee, Choon-Tae
    • Journal of Power System Engineering
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    • v.17 no.6
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    • pp.5-10
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    • 2013
  • Diesel engines have the advantages of good fuel efficiency and low emissions. Therefore, car makers have been developed various kinds of diesel engine management system to clean up emissions while improving fuel efficiency. One of them is the common rail system. In the common rail system, diesel fuel is injected into the combustion chamber at ultra high pressures up to 1,800 bar to ensure more complete combustion for cleaner exhaust gas, and highly precise multiple injection reduces NOx emission, combustion noise and vibration. Generally speaking, common rail system consists of booster pump, high pressure pump, common rail, injectors, control valves, and sensors. The high pressure pump receives low pressure fuel from the booster pump and supply high pressure fuel to injectors through the high pressure common injection rail. Therefore, high pressure pump has an important role in common rail system. In this paper, we have investigated the performance of high pressure pump of common rail system.

An Analytical Study by Variation of Die and Plug Angle in Drawing Process for the Strength Optimization of Ultra High Pressure Common Rail Fuel Injection Tube Raw Material (초고압 커먼레일 연료분사튜브 원재료 강성 최적화를 위한 인발 공정에서의 Die와 Plug 각도 변경에 따른 해석적 연구)

  • Ahn, Seoyeon;Park, Jungkwon;Kim, Yonggyeom;Won, Jongphil;Kim, Hyunsoo;Kang, Insan
    • Transactions of the Korean Society of Automotive Engineers
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    • v.24 no.3
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    • pp.338-344
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    • 2016
  • The study is actively being performed to increase fuel injection pressure of common rail system among countermeasures to meet the emission regulation strengthen of the Diesel engine. The common rail fuel injection tube in such ultra high pressure common rail system has the weakest structural characteristics against vibration that is generated by fuel injection pressure and pulsation during engine operation and driving. Thus the extreme durability is required for common rail fuel injection tube, and the drawing process is being magnified as the most important technical fact for strength of seamless pipe that is the raw material of common rail tube. In this respect, we analyzed the characteristic of dimension and stress variation of the ultra high pressure common rail fuel injection tube by variation of Die and Plug angle in drawing process. Based on the analysis, we tried to obtain the raw material strength of common rail fuel injection tube for applying to the ultra high pressure common rail system. As a result, Plug angle is more important than entry angle of Die and we could obtain the target dimension and strength of the ultra high pressure common rail fuel injection tube through optimization of Plug angle.

A Study on the Model of an HSDI Common-Rail Injector and the Estimation of Needle Lift (HSDI Common-Rail 인젝터 모델링 및 니들 변위 추정에 관한 연구)

  • 성경훈;박승범;선우명호;나형규
    • Transactions of the Korean Society of Automotive Engineers
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    • v.10 no.1
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    • pp.59-66
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    • 2002
  • This paper presents the process of the needle lift estimation ova common-rail injector fur HSDI(High Speed Direct Injection) diesel engines. A nonlinear mathematical model of dynamic behaviors of common-rail injector is established at first. Based on the mathematical model of the common-rail injector, the methodology of estimating the injector needle lift is introduced. A sliding mode observer is applied to overcome the model uncertainties. The common-rail injector model and the needle lift estimator are verified by simulations and experiments. The simulation and experimental results indicate that the model outputs are in a good agreement with experimental data, and the proposed nonlinear sliding observer can effectively estimate the needle lift.

Dynamic Model of an HSDI Common-rail Injector and Injection Rate Estimation (HSDI 커먼레일 인젝터 동적 모델 및 분사율 추정)

  • 남기훈;박승범;선우명호
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.5
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    • pp.43-49
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    • 2003
  • The common-rail fuel injection system is becoming a common technology for High Speed Direct Injection(HSDI) diesel engines. The injection timing and rate are important factors for combustion control and pollutants formation mechanisms during engine operation. This paper introduces an estimation methodology of the injection timing and rate of a common-rail injector for HSDI diesel engines. A sliding mode observer that is based on the nonlinear mathematical model of the common-rail injector is designed to overcome the model uncertainties. The injector model and the estimator we verified by relevant injection experiments in an injector test bench. The simulation and the experimental results show that the proposed sliding mode observer can effectively estimate the injection rate of the common-rail injector.

Engine Performance and Combustion Characteristics on The Variation of Injection Characteristics in Diesel Engine with Common Rail System (디젤엔진에서 Common-rail 시스템의 분사방법에 따른 기관성능 및 연소특성에 관한 실험적 연구)

  • 백두성;오상기;한영출
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.4
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    • pp.52-57
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    • 2003
  • Common rail injection system is flexible in injection timing, injection duration and pressure in engine. Many researches have reported on the merits in the application of common rail systems. This research investigated on characteristics and performance for single cylinder diesel engine with a common .ail injection system by varying major parameters such as injection timing, injection duration and common rail pressure. The injection timing and injection duration were controlled by electronic pulse generated. and common rail pressure were controlled by PCV driver. The 498cc single cylinder diesel engine was used in this experiment. All data for combustion pressure, injection timing and injection duration were recorded by Labview. Furthermore, this test was focused on how to optimize injection conditions.

Common Rail Pressure Control Algorithm for Passenger Car Diesel Engines Using Quantitative Feedback Theory (QFT를 이용한 디젤엔진의 커먼레일 압력 제어알고리즘 설계 연구)

  • Shin, Jaewook;Hong, Seungwoo;Park, Inseok;Sunwoo, Myoungho
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.38 no.2
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    • pp.107-114
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    • 2014
  • This paper proposes a common rail pressure control algorithm for passenger car diesel engines. For handling the parameter-varying characteristics of common rail systems, the quantitative feedback theory (QFT) is applied to the design of a robust rail pressure control algorithm. The driving current of the pressure control valve and the common rail pressure are used as the input/output variables for the common rail system model. The model parameter uncertainty ranges are identified through experiments. Rail pressure controller requirements in terms of tracking performance, robust stability, and disturbance rejection are defined on a Nichols chart, and these requirements are fulfilled by designing a compensator and a prefilter in the QFT framework. The proposed common rail pressure control algorithm is validated through engine experiments. The experimental results show that the proposed rail pressure controller has a good degree of consistency under various operating conditions, and it successfully satisfies the requirements for reference tracking and disturbance rejection.

Combustion Characteristics of Common Rail System by Using a Heavy Duty Transparent Engine (Common Rail을 이용한 대형 디젤 가시화엔진에서의 연소특성)

  • Kim, Y.M.;Lee, J.H.;Kim, S.H.;Lee, W.G.;Hong, C.H.;Choi, B.C.
    • Proceedings of the KSME Conference
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    • 2001.06d
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    • pp.896-902
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    • 2001
  • To meet strict emission regulation while improving engine performances, common rail injection system which is suitable for electronic control, and capable of controlling injection quantity, timing, rate and pressure individually as well as realizing high pressure has been developed. At present study, a 8L DI diesel engine was converted to a single-cylinder experimental engine allowing optical access through an extended piston and a prototype of common rail injector in progress was applied to the engine. The combustion characteristics of the engine were analysed by using direct images and characteristics of the injector were analysed. We can not say that the results are always the same to general common rail injection system but that they are just characteristics of specific prototype injector.

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A Computer Simulation of Injection Rate Characteristics of Solenoid Type Common Rail Injector According to Injector Driving Current Patterns (인젝터 구동 전류 패턴 변화가 솔레노이드 타입 커먼레일 인젝터 분사율 특성에 미치는 영향에 대한 컴퓨터시뮬레이션)

  • Lee, Choong Hoon
    • Journal of ILASS-Korea
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    • v.24 no.3
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    • pp.114-121
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    • 2019
  • The effect of injector driving current pattern on fuel injection rate of solenoid diesel common rail injector was studied by computer simulation. The time resolved fuel injection rate and injected quantity per stroke of a common rail injector driven with the five current patterns were computer simulated. The fuel injection rate and injected quantity per stroke according to the rail pressure and fuel injection period were also computer simulated. When the common rail injector was driven with the five driving current patterns of peak & hold, there was no difference in the fuel injection rate in the peak section regardless of all the current patterns of the five cases. On the other hand, the magnitude of the hold current value influenced the injection rate and injected quantity per stroke. That is, in the current pattern of three cases where the hold current value is equal to or more than a constant value of the peak current value, the fuel injection rates for the given common rail rail pressure and injection period are same one another. On the other hand, the current pattern of the two cases, in which the hold current value is smaller than a certain value, there is a large fluctuation in the fuel injection rate.

The Effect of Injection Pressure Variations on the Smoke and Fuel Consumption in a Small HSDI Diesel Engine with Common Rail Injection System (소형 HSDI 디젤엔진에서의 Common Rail을 이용한 분사압력 변화가 Smoke 및 연료 소모량에 미치는 영향)

  • 류명석;신범식
    • Transactions of the Korean Society of Automotive Engineers
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    • v.9 no.2
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    • pp.28-34
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    • 2001
  • Great attentions are paid to HSDI diesel engine for passenger cars because of its high thermal efficiency. The most interesting research in HSDI diesel engine developments is focused on applying common rail system as a fuel injection equipment. In this study, a series of tests are carried out to investigate the effect of injection pressure variation on the smoke and fuel concluded in a small HSDI diesel engine with common rail system. As a result of this study it is concluded that there is an optimum rail pressure dependent on combustion system such as nozzle type, combustion chamber geometry.

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