• 한국응용과학기술학회지
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• 제35권4호
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• pp.1108-1119
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• 2018

대기오염에 대한 관심은 국내 외에서 점진적으로 상승하고 있으며, 자동차 및 연료 연구자들은 청정(친환경 대체연료) 연료와 연료품질 향상 등을 위해 새로운 엔진 설계, 혁신적인 후 처리 시스템 등의 많은 접근을 통하여 차량 배출가스와 온실가스를 감소시키려고 노력하고 있다. 이러한 연구들은 주로 차량의 배출가스 (규제 및 미규제물질, PM 입자 배출 등)와 온실가스의 두 가지 이슈로 진행되고 있다. 자동차의 배출가스는 환경오염과 인체에 악영향을 주는 많은 문제를 일으키고 있다. 이러한 배출가스를 줄이기 위하여 각국에서는 배출가스 시험모드를 새로 만들어 규제하고 있다. 2007 년부터 UN ECE의 WP.29 포럼에서 배출가스 인증을 위한 전 세계의 조화된 light-duty 차량 시험 절차 (WLTP)가 개발되었다. 이 시험 절차는 유럽과 동시에 국내 light-duty 디젤 차량에도 적용되어졌다. Light-duty 차량의 대기오염 물질 배출량은 거리 당 무게로 규제되어 있어 주행주기가 결과에 영향을 미칠 수 있다. 차량의 배출가스는 주행 및 환경조건, 주행습관 등에 따라 크게 달라진다. 극단적인 외기온도는 배출가스를 증가시키는데, 이것은 더 많은 연료가 실내를 가열하거나 냉각해야하기 때문이다. 또한 높은 주행속도는 증가된 항력을 극복하기 위해 필요한 에너지로 인해 배출가스 량을 증가시킨다. 일반적으로 상승하는 차량속도와 비교할 때, 급격한 차량가속도도 배출가스를 증가시킨다. 부가적인 장치 (에어컨 또는 히터)와 도로경사 또한 배출가스를 증가시킨다. 본 연구에서는 3대의 light-duty 차량을 가지고 light-duty 차량의 배출가스 규제에 사용되는 WLTP, NEDC 및 FTP-75로 시험을 하였으며, 배출가스가 다른 주행 사이클에 의해 얼마나 많은 영향을 받을 수 있는지를 측정하였다. 배출 가스는 통계적으로 의미있는 차이를 보이지 않았다. 최대 배출 가스는 주로 냉각 된 엔진 조건에 의해 야기되는 WLTP의 저속 단계에서 발견된다. 냉각 된 엔진 상태에서 배출가스의 양은 시험 차량과 크게 다르다. 이는 WLTP 구동 사이클에 대처하기 위해 다른 기술적 솔루션이 필요하다는 것을 의미한다.

• 한국자동차공학회논문집
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• 제9권4호
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• pp.62-68
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• 2001

In an early engine development, it is highly required to determine the Key Test Points at the main driving, zone and lessen those points to reduce a test duration. This paper describes that it is possible not only to predict the cycle fuel consumption[g/km], emissions[g/km] from engine data(BSFC[g/kWh], emissions[g/kWh]) but also to confirm the emission regulation potential before a vehicle test.

• 한국산학기술학회논문지
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• 제12권1호
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• pp.19-25
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• 2011

최근의 차량 연비는 환경 규제 및 고가의 연료 가격으로 인하여 중요한 문제로 대두되었다. 연비 향상을 위한 기술 개발은 엔진, 파워트레인 등 차량의 많은 구성품들의 성능을 개선하였다. 따라서 연비는 많이 향상 되었으나 연비 측정은 현재도 주어진 모드(LA-4, FTP-75 등)에서 컴퓨터 모의시험 및 다이나모에서 수행한다. 본 논문에서는 실제 도로의 연비 향상 방안을 도출하기 위하여 약 213Km 영동고속도로를 제안하는 3가지 다른 알고리즘으로 모의 주행하였다. 이를 위해 GPS 수신 데이터 중에서 거리와 고도 데이터를 추출하여 각 구간의 경사도, 주행저항을 계산, 알고리즘에 따른 속도 프로파일을 약 213Km 전 구간에 대해서 완성하였다. 이 속도 프로파일로 컴퓨터를 이용한 AVL Cruise 프로그램으로 모의 주행하여 연비를 산출하고 Eco-driving 방안을 제안한다.

• 한국분무공학회지
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• 제19권1호
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• pp.40-46
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• 2014

Recently rise in oil prices feet the burden on not only diesel vehicle driver but also LPG vehicle driver, and get interested in various way to reduce fuel costs. In this study discuss on exhaust emissions characteristics on driving cycle mode and ignition advance condition change of CNG/LPLI Bi-Fuel vehicle. Experimental test was performed by changing the conditions of fuel (LPG/CNG), spark advance (Base, $10^{\circ}CA$, $15^{\circ}CA$), and driving mode (FTP-75, HWFET, and NEDC). In case of CO emission, in the order of CNG Base, CNG S/A10, S/A15 condition are average reduced -21%, -35%, -29% respectively compared to LPG fuel. The active emission reduction from the initial engine start, spark retard is likely to be beneficial in catalyst warm-up and improve combustion stability rather than spark advance.

• 한국분무공학회지
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• 제19권1호
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• pp.33-39
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• 2014

Due to persist of high oil prices, LPG price stabilization and CNG modification project will be conducted. Present study describes the fuel efficiency and $CO_2$ emission characteristics on driving cycle mode and ignition advance condition change of CNG/LPG Bi-Fuel vehicle. In case of LPG Base and CNG Base condition, considerable $CO_2$ emissions are generated within range of high acceleration on FTP-75 and HWFET driving mode. However previous phenomena does not appear in CNG fuel $10^{\circ}CA$ and $15^{\circ}CA$ spark advance condition. As a result of analyzing the experimental data CNG $S/A10^{\circ}CA$, CNG $S/A15^{\circ}CA$, CNG Base, and LPG Base sequentially measured high fuel economy and low $CO_2$ emission characteristics.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2007년도 춘계학술대회B
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• pp.3317-3322
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• 2007

THC(Total Hydrocarbon) emissions during cold start and warm-up phase constitute the majority of THC emissions during the FTP-75 mode. As the basic approach to improve the emission performance of Gasoline engine during transient phase, the effect of spark timing retard from MBT on THC emission characteristics is studied by engine test using a Fast response Flame Ionization Detector(FFID). A cyclic analysis of the combustion process shows that high THC emissions are produced first few cycles during the transient phase. This paper presents the results of engine performance and emission of Gasoline engine with various spark timing. consequently, This paper was focused on the combustion phenomena with various spark timing during transient phase which was analyzed by Fast response Flame Ionization Detector (FFID) equipment to measure the cyclic THC emission characteristics.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2008년도 추계학술대회B
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• pp.3001-3006
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• 2008

Recently, the internal combustion engines have focused on reducing both the CO2 emissions in order to cope with severe regulations for greenhouse effect. Therefore, various new technologies have been developed in many countries. Among them, the cooling system is spotlighted because it has great effect on fuel efficiency. However, the present engine cooling system is almost same as one of the 50 years ago. The needs for high performance and compact size make it important to improve engine cooling system, down-sizing and control method of coolant flow. Thus, low fuel consumption technology such as control and synthetic management of cooling system was necessary to satisfy with these needs. In this study, we applied electric thermostat to improve the fuel economy. The fuel consumption was compared after driving FTP-75 mode on both conditions which were with a conventional wax thermostat and with a electric thermostat. The coolant temperature of opening the electric thermostat is higher.

• 한국분무공학회지
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• 제22권4호
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• pp.185-189
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• 2017

In Korea, sales of passenger cars using diesel and LPG fuels were continuously increased in recent years. From now on 2030, the registrated vehicles will close in about twenty five million in Korea. From these reason, Investigation on the comparison of exhaust emission characteristics of passenger cars using LPG and Diesel fuel in variation of driving mode and ambient conditions were conducted in this study. Exhaust emission characteristics of test vehicles were measured and analyzed by using chassis dynamometer and emission analyzer. Also, test vehicles were selected on the diesel vehicle with 1.7L engine and LPG vehicle with 2.0L engine. In order to study on emission characteristics according to driving cycles, CVS-75, NEDC, US06, SC03, Cold-FTP and HWFET were applied and the test conditions were set up the cases of A/C on and hot start. From these results, it is revealed that the NOx emission of diesel vehicle was higher than that of LPG vehicle and the case of CO emission shows the opposite patterns. In the HC emission, the emission increasing patterns not showed but the NOx emission of diesel vehicle and CO emission of LPG vehicle were showed the variation patterns according to the various driving modes.

• Journal of Mechanical Science and Technology
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• 제15권10호
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• pp.1442-1450
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• 2001

The EGR system has been widely used to reduce nitrogen oxides (NO$\_$x/) emission, to improve fuel economy and suppress knock by using the characteristics of charge dilution. However, as the EGR rate at a given engine operating condition increases, the combustion instability increases. The combustion instability increases cyclic variations resulting in the deterioration of engine performance and emissions. Therefore, the optimum EGR rate should be carefully determined in order to obtain the better engine performance and emissions. An experimental study has been performed to investigate the effects of EGR on combustion stability, engine performance,70x and the other exhaust emissions from 1.5 liter gasoline engine. Operating conditions are selected from the test result of the high speed and high acceleration region of SFTP mode which generates more NO$\_$x/ and needs higher engine speed compared to FTP-75 (Federal Test Procedure) mode. Engine power, fuel consumption and exhaust emissions are measured with various EGR rate. Combustion stability is analyzed by examining the variation of indicated mean effective pressure (COV$\_$imep/) and the timings of maximum pressure (P$\_$max/) location using pressure sensor. Engine performance is analyzed by investigating engine power and maximum cylinder pressure and brake specific fuel consumption (BSFC)

• 한국분무공학회지
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• 제28권4호
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• pp.191-197
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• 2023

LPG direct injection (LPDi) technology is a method of improving the weaknesses of existing LPG vehicles by directly injection into the combustion chamber. This study was conducted on the comparison of emissions and fuel efficiency performance of the engine and vehicle by applying LPDi technology. The LPDi hybrid engine's maximum output and maximum torque were measured at an equivalent level of less than 1% compared to conventional gasoline fuel. The fuel amount was corrected using the LCU controller, and the THC, CO, and NOx emissions were reduced to 90% in the operating range of the three-way catalyst through air-fuel ratio control. The analysis of THC+NOx and CO emissions in FTP-75 (CVS-75) driving mode satisfied the US LEV III SULEV30 regulation.