• 제목/요약/키워드: Air-fuel Ratio

검색결과 804건 처리시간 0.021초

대형천연가스차량의 공연비제어기 설계를 위한 엔진모델 (An Engine Model of a Heavy-Duty Compressed Natural Gas Engine for Design of an Air-Fuel Ratio Controller)

  • 심한섭;이태연
    • 한국공작기계학회논문집
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    • 제12권5호
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    • pp.80-87
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    • 2003
  • Air partial pressure ratio and inlet air mass flow are influenced by water vapor and gaseous fuel in mixture on Compressed Natural Gas (CNG) engines. In this paper, the effects of the water vapor and the gaseous fuel that change the air mass flow and the air-fuel ratio are studied. Effective air mass ratio is defined as the air mass flow divided by mixture mass flow, and also it is applied to the estimation of the inlet air mass flow and the air-fuel ratio. The presence of the gaseous fuel and the water vapor in the mixture reduces the air partial pressure and the effective air mass ratio of the CNG engines. The experimental results for the CNG engine show that estimation of the air-fuel ratio based upon the effective air mass ratio is more accurate than that of a normal mode.

신경회로망을 이용한 정상상태에서의 자동차 엔진의 공연비제어 (Air-Fuel Ratio Control of Automobile Engines in Steady States by Neural Networks)

  • 최종호;원영준;고상근;노승탁
    • 대한기계학회논문집
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    • 제16권11호
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    • pp.2119-2125
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    • 1992
  • 본 연구에서는 현재 사용되고 있는 산소센서의 단점을 극복할 수 있는 방법을 광역공연비센서처럼 공연비를 추정할 수 있는 방법을 연구한다. 그 방법으로 신경회 로망을 사용한 배기가스의 공연비 추정기(estimator)를 구성한다. 그리고 이 추정기 를 이용한 공연비 제어기를 설계하고 실제 MPI엔진에 적용하여 그 성능을 알아 보겠다.

가솔린 엔진의 비정상 상태에 대한 Map 구성과 공기 및 연료 모델 개선 (Construction of Map for Transient Condition of a Sl Engine and Refinement of Intake Air Model & Fuel Model)

  • 심연섭;강태성;강승표;고상근
    • 한국자동차공학회논문집
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    • 제10권5호
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    • pp.1-8
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    • 2002
  • For gasoline engines, a three-way catalytic converter that has the maximum efficiency at stoichiometric air/fuel ratio is used to clean up the exhaust gas. So a precise air/fuel ratio control is necessary to maximize the catalytic conversion efficiency, For a transient condition, a fred-forward air/fuel ratio control method that estimates the air mass inducted into a cylinder is being used. In this study, a fuel injection map that makes an accurate air/fuel ratio control possible was constructed for the very same transient condition. For the same condition above, intake air model and fuel model were refined so that fuel injection values based on air mass through a throttle valve and intake manifold pressure are equal to the map values.

흡기포트 분사방식의 가솔린 엔진에서 급가속시 연료 거동에 관한 연구 (A Study on Fuel Transport Characteristics in a Port Fuel Injected Sl Engine during Transient Condition)

  • 황승환;조용석;이종화
    • 한국자동차공학회논문집
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    • 제11권3호
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    • pp.20-27
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    • 2003
  • In this paper, the fuel transport characteristics during transient condition was studied by using a Fast Response Flame Ionization Detector(FRFID). The quantitative measurement method for the inducted fuel mass into cylinder is studied. The inducted fuel mass into the cylinder was estimated by using calculated air-fuel ratio by hydrocarbon concentration of cylinder and air flow model. In order to estimate the transportation of injected fuel from the intake port into cylinder, the wall wetting fuel model was used. The two coefficient $\alpha$,$\beta$) of the wall-wetting fuel model was determined from the measured fuel mass that was inducted into the cylinder at the first cycle after injection cut-off To reduce an air/fuel ratio fluctuation during rapid throttle opening, the appropriate fuel injection rate was obtain from the wall wetting model with empirical coefficients. Result of air/fuel ratio control, air/fuel excursion was reduced.

기체연료 엔진에서 공연비제어를 위한 흡입공기량 추정 (Estimation of Inlet Air Mass Flow for Air-Fuel Raito Control of Gaseous-Fuel Engines)

  • 심한섭;이강윤;선우명호;송창섭
    • 한국자동차공학회논문집
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    • 제9권5호
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    • pp.131-139
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    • 2001
  • Highly accurate control of the air-fuel ratio is important to reduce exhaust gas emissions of the gaseous-fuel engines. In order to achieve this purpose, inlet air mass flow must be measured exactly, and precise engine models are necessary to design engine control systems. In this paper, the effects of water vapor and gaseous fuel that change the air mass flow are studied. The effective air mass ratio is defined as the air mass flow divided by the mixture mass flow, and also it is applied to the estimation of the inlet air mass flow. The presence of the gaseous fuel and the water vapor in the mixture reduces the air partial pressure and the effective air mass ratio of the gaseous-fuel engines. The Experimental results for an LPG engine show that the estimation of the inlet ai mass flow based upon the effective air mass ratio is more accurate than that of the normal air mass flow.

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연료량 변조법에 의한 연료분사식 가솔린엔진의 공연비 제어 (Modulated Fuel Feedback Control of a Fuel Injection SI Engine)

  • 박경석;박진일;고상근;노승탁;이종화
    • 한국자동차공학회논문집
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    • 제4권3호
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    • pp.102-111
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    • 1996
  • For the air-fuel ratio control in a fuel injection SI engine, the Jump-Ramp control algorithm has been widely adopted by using the on/off type oxygen sensor. But the Jump-Ramp control method has limitation on treating the frequency and amplitude of the air-fuel ratio oscillation. This study suggests another feedback control logic named modulated fuel feedback control, which has a concept of pre-tuned air-fuel ratio oscillation. In the modulation method, the oxygen sensor output is not treated as on/off signal but as analog signal for feedback. By using the modulation method, the frequency and the amplitude of air-fuel ratio oscillation can be adjustable to some extent for improving the conversion efficiency of the Three-Way Catalyst. The result shows that the performance of the modulation method is better than that Jump-Ramp control method in reducing the amplitude of the air-fuel ratio oscillation as well as in increasing the frequency of the air-fuel ratio oscillation.

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공기 보조 연료 분사 장치가 있는 가솔린 기관의 희박 연소에 관한 연구 (A Study on the Lean Combustion of the Gasoline Engine with Air Assisted Fuel Injection System)

  • 김세웅;김응서
    • 한국자동차공학회논문집
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    • 제2권2호
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    • pp.117-123
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    • 1994
  • This paper describes the effect of air assisted fuel injection system(AAI) using compressed air to improve the performance of lean combustion engine. AAI is designed to promote fuel atomization and intake flow. In order to investigate the performance of engine with AAl, experiments are conducted varying the engine revolution speed, lean air-fuel ratio and intake manifold pressure. Compared with the original engine, the performance of the engine with MI is improved as the air-fuel mixture becomes leaner or the engine load becomes lower. The descreasing rate of BSFC is propotional to the relative air-fuel ratio and the lean misfire limit extended more than 0.2 relative airfuel ratio.

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기체연료엔진의 제어시스템 설계를 위한 엔진 모델링 및 검증 (Engine Modeling and Validation for Control System Design of a Gaseous-fuel Engine)

  • 심한섭;선우명호
    • 한국자동차공학회논문집
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    • 제11권1호
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    • pp.7-17
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    • 2003
  • Highly accurate control of an air-fuel ratio is very important to reduce exhaust gas emissions of gaseous-fuel engines. In order to achieve this purpose, a precise engine model is required to estimate engine performance from the engine design process which is applied to the design of an engine controller. Engine dynamics are considered to develop a dynamic engine model of a gaseous-fuel engine. An effective air mass ratio is proposed to study variations of the engine dynamics according to the water vapor and the gaseous-fuel in the mixture. The dynamic engine model is validated with the LPG engine under steady and transient operating conditions. The experimental results in the LPG gaseous-fuel engine show that the estimation of the air flow and the air-fuel ratio based upon the effective air mass ratio is more accurate than that of a normal engine model.

가솔린 기관 공연비 제어를 위한 흡기포트 내의 연료액막 모델링 (Modeling of Liquid Fuel Behavior to Control Air/Fuel Ratio in the Intake Port of SI Engines)

  • 조훈;민경덕;황승환;이종화
    • 대한기계학회논문집B
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    • 제24권4호
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    • pp.512-518
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    • 2000
  • A wall fuel-film flow model is developed to predict the effect of a wall-fuel-film on air-fuel ratio in an SI engine in transient conditions. Fuel redistribution in the intake port resulting from charge backflow and a simple liquid fuel behavior in the cylinder are included in this model. Liquid fuel film flow is calculated of every crank angle degree using the instantaneous air flow rate. The model is validated by comparing the calculated results and corresponding engine experiment results of a commercial 4 cylinder DOHC engine. The predicted results match well with the experimental results. To maintain the constant air-fuel ratio during transient operation. the fuel injection rate control can be obtained from the simulation result.

액체 및 기체연료 엔진의 공연비 제어특성에 관한 비교 연구 (A Comparative Study on A/F Control Characteristics of Liquid and Gaseous Fueled Engines)

  • 심한섭;신규철;송창섭;선우명호
    • 한국자동차공학회논문집
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    • 제10권1호
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    • pp.106-114
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    • 2002
  • In this study, the air-fuel ratio(A/F) control characteristics of a liquid and a gaseous fueled engine are investigated. Engine models far both the liquid and the gaseous fueled engine are developed to compare the characteristics of fuel delivery into the cylinder, and the performances of the models are evaluated using the simulation and experiment. The simulation and experimental results show that the gaseous fueled engine has better control performance than that of the liquid fueled engine in terms of the air-fuel ratio control. This study could be used to develop air-fuel ratio control schemes for both the liquid and the gaseous fueled engine.