• Title/Summary/Keyword: 액상 LPG분사 엔진

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대형 디젤대체용 LPG 엔진개발

  • Gang, Geon-Yong
    • LP가스
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    • s.71
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    • pp.49-53
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    • 2000
  • 대형디젤엔진의 대체용으로 LPG 엔진을 개발함에 있어서 차세대 연료공급방식인 LPG 연료의 액상분사방식을 채택하여 기존의 믹서방식의 연료공급시스템을 가진 LPG 엔진보다 고출력, 고효율, 저공해성을 추구하고자 하였다. 이를 위한 기초연구로서 먼저 단기통 연소엔진을 이용하여 대형엔진에 LPG 연료 적용 가능성, 액상분사 시스템을 포함한 여러 가지 연료공급방식에 따른 엔진의 성능파악, 대형엔진에 적합한 최적 선회비의 결정, 연료조성에 따른 엔진성능의 변화 등을 알아보았다. 실험결과, 대형엔진에 LPG 연료의 적용은 아무런 문제점이 없었으며 LPi 연료공급방식은 다른 방식에 비해서 10%정도의 체적효율 및 출력의 증가를 확인할 수 있었다. 최적의 선회비는 2.0 부근에서 형성되었고, 연료 조성은 프로판 대 부탄의 비율이 60 : 40에서도 정상적으로 운전됨을 확인하였다. 시제품 엔진의 경우, 과급방식의 KL6i 엔진을 개발하기 앞서 좀더 기술적 접근이 용이한 자연흡입방식의 K-1엔진의 개발이 선행되었으며 현재 개발 진행중인 K-1엔진의 성능평가 결과, 기존의 디젤엔진에 비해 출력성능이 20% 정도 향상됨을 확인할 수 있었다. 특히 대형차량에서 중요시 생각되는 저속토크 성능이 매우 우수한 것으로 파악되었다. 이러한 결과를 바탕으로 단기통 연소엔진에서 확인된 최적화된 연료조성과 선회비를 향후 K-1엔진에 적용할 예정이다. 최근 열린 가스학회 추계발표회와 LPG자동차세미나의 주요내용을 게재한다.

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Performance and Emission Characteristics of Liquid-Phase LPG Injection Engine with Different EGR Rate (EGR율 변화에 대한 액상 LPG분사 엔진의 운전 및 배출가스특성)

  • 염기태;우영민;장진영;박용국;배충식
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.5
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    • pp.7-14
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    • 2003
  • Exhaust Gas Recirculation (EGR) system is used to reduce NOx emission, to improve fuel economy, and to suppress knock since it offers the benefits of the inlet charge dilution. The effects of EGR was investigated on the performance and emission to reduce exhaust thermal load with a single cylinder liquid-phase LPG injection engine, in a wide range of EGR rate, engine conditions and LPG proportions. As EGR rate was increased, NOx was reduced while HC was increased. Pumping loss reduction by EGR improved bsfc and increased EGR lowered exhaust gas temperature. And, LPG proportions were made a difference on the performance and emission characteristics.

Various Injection Conditions and Fuel Control of an LPG Liquid Injection Engine (다양한 분사조건과 LPG 액상분사엔진의 연료량 제어)

  • Sim Hansub
    • Transactions of the Korean Society of Automotive Engineers
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    • v.13 no.1
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    • pp.28-35
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    • 2005
  • Fuel injection rate of an injector is affected by various injection conditions such as injection duration, fuel temperature, injection pressure, and voltage in LPG liquid injection systems for either a port-fuel-injection(PFI) or a direct injection(DI) in a cylinder. Even fuel injection conditions are changed, the air-fuel ratio should be accurately controlled to educe exhaust emissions. In this study, correction factor for the fuel injection rate of an injector is derived from the density ratio and the pressure difference ratio. A voltage correction factor is researched from injection test results on an LPG liquid injection engine. A compensation method of the fuel injection rate is proposed for a fuel injection control system. The experimental results for the LPG liquid injection system in a SI-engine show that this system works well on experimental range of engine speed and load conditions. And the fuel injection rate is accurately controlled by the proposed compensation method.

Injector Control Logic for a Liquid Phase LPG Injection Engine (액상 LPG 분사 엔진의 인젝터 제어 로직)

  • 조성우;민경덕
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.5
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    • pp.15-21
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    • 2003
  • The liquid phase LPG injection engine is a new technology to make good use of LPG as a clean energy. However, it is difficult to precisely control air/fuel ratio in the system because of variation of fuel composition, change of temperature and flash boiling injection mechanism. This study newly suggests an injector control logic for liquid phase LPG injection systems. This logic compensates a number of effects such as variations of density, stoichiometric air/fuel ratio, injection delay time, injection pressure, release pressure which is formed by flash boiling of fuel at nozzle exit. This logic can precisely control air/fuel ratio with only two parameters of intake air flow rate and injection pressure without considering fuel composition, fuel temperature.

An Experimental Study on the Fundamental Characteristics of LPG Gas Injections System (LPG 가스분사시스템의 기초특성에 대한 실험적 연구)

  • Jang, Yeol-Sung;Woo, Sung-Dong;Kim, Hyeong-Sig;Park, Chan-Jun;Ohm, In-Yong
    • Journal of Energy Engineering
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    • v.15 no.4 s.48
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    • pp.277-283
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    • 2006
  • In this study, butane 100% was used as fuel to verify the real fuel effect such as vapor pressure variation due to temperature change. A MPI fuel injection system for V-6 engine, which has reverse 'L' type cross section to minimize the possibility of liquid phase injection, was composed and one bank was operated under sequential injection scheme. Flow rate were measured according to injection duration, interval, and pressure. Also occurring of liquid phase injection was monitored with varying vaporizer and fuel rail temperature. The result shows that basic characteristics of injection is a relatively difference between air and LPG injection. Under cold start condition, however, the occurrence of liquid injection becomes more severe as the pressure increases, and sufficiently high temperature both in vaporizer and fuel rail is very important to insure gaseous injection. In addition, the temperature of vaporizer plays more important role in keeping LPG vapor state and the reverse 'L' type cross section of the rail is available to prevent liquid injection.

Fundamental Study on Liquid Phase LPG Injection System for Heavy-Duty Engine (I) (대형엔진용 액상분사식 LPG 연료공급 방식에 대한 기초연구 (1))

  • 김창업;오승묵;강건용
    • Transactions of the Korean Society of Automotive Engineers
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    • v.9 no.4
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    • pp.85-91
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    • 2001
  • LPG has been well known as a clean alternative fuel for vehicles. As a fundamental study on liquid phase LPG injection (hereafter LPLI) system application to heavy-duty engine, engine output and combustion performance were investigated with various operating conditions using a single cylinder engine equipped with the LPLI system. Experimental results revealed that no problems were occurred in application of the LPG fuel to heavy-duty engine, and that volumetric efficiency and engine output, by 10% approximately, were increased with the LPLI system. It was resulted from the decrease of the intake manifold temperature through liquid phase LPG fuel injection. These results provided an advantage in the decrease of the exhaust gas temperature, in the control of knocking phenomena, spark timing and compression ratio. The LPLI engine could normally operated under $\lambda$=1.5 or EGR 30% condition. The optimized swirl ratio for the heavy duty LPG engine was found around R_s$ = 2.0.

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Reaction Characteristics of LPG Fuel and Rubber Parts of Fuel Supply System in Liquid Phase LPG Injection (LPLi) System (LPG액상분사식(LPLi) 엔진에서 연료와 연료공급계통 고무류 부품사이의 반응성 연구)

  • Kim, Chang-Up;Park, Cheol-Woong;Kang, Kern-Yong
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.33 no.4
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    • pp.272-277
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    • 2009
  • The liquid phase LPG injection (LPLi) system (the 3rd generation technology) has been considered as one of the most promising fuel supply systems for LPG vehicles. To investigate the reaction characteristics of LPG with rubber parts in LPLi system, various rubbers were tested. The results showed that the amount of residue from the cover rubber of a fuel pump was increased about 10 times after testing. Furthermore, the amount of sulfur and nitrogen species which are considered as main sources of deposit formation in LPLi fuel injectors were also found to be higher than those in original LPG fuel. In addition, these residues made the core parts of LPLi injector such as needle and nozzle, partially worn, which eventually causes leakage in LPLi injectors.

The Fundamental Study on Liquid Phase LPG Injection System for Heavy-Duty Engine (II) (대형엔진용 액상분사식 LPG 연료공급방식에 대한 기초연구 (2))

  • 김창업;오승묵;강건용
    • Transactions of the Korean Society of Automotive Engineers
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    • v.9 no.6
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    • pp.1-7
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    • 2001
  • Recently, several LPG engines for heavy-duty vehicles have been developed, which can replace some diesel engines that are one of a main source for air pollution in urban area. As a preliminary study on the liquid phase LPG injection (hereafter LPLI) system applicable to a heavy duty LPG engine, the engine output and combustion performance were investigated with various combustion chambers and fuel compositions using a single cylinder engine equipped. Experimental results revealed that ellipse, double ellipse and nebula type combustion chamber made a more advantage in breaking swirl flow into small turbulence scale than bathtub type. Especially, performance of nebula type showed most highest efficiency and engine output under lean mixture conditions. An investigation fur various LPG fuel compositions was also carried out, and revealed that the case with 40% propane and 60% butane shows the lowest efficiency at stoichiometry, however, as the mixture became leaner its efficiency increased and became even higher for 100% propane case.

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LPLi Engine Performance and Vehicle Exhaust Emission Characteristics (액상 분사 LPG 엔진 성능 및 차량 배기 배출물 특성에 관한 연구)

  • 임종훈;명차리;박심수;양승주
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.4
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    • pp.15-21
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    • 2003
  • LPG is considered as one of the most prominent alternative automotive fuels in worldwide. However, conventional mixer system can not meet the emission regulations as the mileage accumulation increased. Recently, much attention is focused on the development of LPG liquid injection fuel systems to increase the engine performance and reduce the exhaust emissions. This study evaluates the LPLi(Liquid Phase LPG injection) engine performance and exhaust emission characteristics using a 3.0 liter LPG engine. The fuel supply system and engine management system were changed from FBM into LPLi to control the precise mixture ratio and optimized spark advance.

Lean Burn Characteristics in a Heavy Duty Liquid Phase LPG Injection SI Engine (대형 액상분사식 LPG 엔진의 희박연소특성에 관한 연구)

  • 오승묵;김창업;강건용;우영민;배충식
    • Transactions of the Korean Society of Automotive Engineers
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    • v.12 no.4
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    • pp.1-11
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    • 2004
  • Combustion and fuel distribution characteristics of heavy duty engine with the liquid phase LPG injection(LPLI) were studied in a single cylinder engine, Swirl ratio were varied between 1.2, 2.3, and 3.4 following Ricardo swirl number(Rs) definition, Rs=2.3 showed the best results with lower cycle-by-cycle variation and shorter burning duration in the lean region while strong swirl(Rs=3.4) made these worse for combustion enhancement. Excessive swirl resulted in reverse effects due to high heat transfer and initial flame kernel quenching. Fuel injection timings were categorized with open valve injection(OVI) and closed valve injection(CVI). Open valve injection showed shorter combustion duration and extended lean limit. The formation of rich mixture in the spark plug vicinity was achieved by open valve injection. With higher swirl strength(Rs=3.4) and open valve injection, the cloud of fuel followed the flow direction and the radial air/fuel mixing was limited by strong swirl flow. It was expected that axial stratification was maintained with open-valve injection if the radial component of the swirling motion was stronger than the axial components. The axial fuel stratification and concentration were sensitive to fuel injection timing in case of Rs=3.4 while those were relatively independent of the injection timing in case of Rs=2.3.