• 한국자동차공학회논문집
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• 제8권1호
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• pp.48-53
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• 2000

The effects of the internal flow in a diesel injection nozzle on the atomization of the spray has been investigated experimentally. Flow visualization was made using a transparent acrylic model nozzle. And also, measurement of the sac chamber pressure was made for clartfying the effect of pressure fluctuation in the sac chamber on the wpray behaviors. The geometry of the model nozzle was scaled up 10 times of the actual nozzle and the injection pressure for the model nozzle was adjusted so as to achieve a Reynolds number at the discharge hole which was the same as the actual nozzle. Polystyrene tracers, a laser sheet light and a still/high speed video camera were used to visualize the flow pattern in the sac chamber. When the needle lift was small, the high turbulence in the sac chamber generated by the high velocity seat flow made the spread angle of the spray large. Cavitation which arose in the sky chamber induced the pressure fluctuation and then affects the spread angle of the spray.

• 대한기계학회논문집B
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• 제21권12호
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• pp.1635-1646
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• 1997

The nozzle length to diameter ratio of real diesel nozzles is about 2-8 which is not long enough for a fully developed and stabilized flow. The characteristics of the flow such as turbulence at the nozzle exit which affect the development of the spray can be enhanced by impinging the flow inside nozzle. The flow details inside the impinging nozzles have been investigated both experimentally and numerically. The mean velocities, the fluctuating velocities, and discharge coefficients in the impinging inlet nozzles, round inlet nozzle, and sharp inlet nozzle were obtained at various Reynolds number. The developing feature of the external spray were photographed by still camera and the droplet sizes and velocities were also measured by laser Doppler technique. The spray angle was greater and the droplet sizes near the spray axis were smaller with the impinging flow inside nozzle.

• 에너지공학
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• 제13권2호
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• pp.118-127
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• 2004

본 연구는 배기량이 16.7ι인 V8형 터보차져 인터쿨러 직접분사식 디젤기관에서 흡기포트의 선회유동과 연료분사계 및 과급기가 기관성능 및 배출가스특성에 미치는 영향을 실험적으로 고찰하며 성능을 개선하는데 있다. 일반적으로 기관의 출력을 높이기 위하여 과급기 및 인터쿨러를 장착하여 과급공기를 냉각시켜 과급효율을 더욱 높인 TCI디젤기관이 보편화되고 있다 본 연구의 결과로서 흡기포트의 선회비가 2.25인 경우에서 압축비 17.5, re-entrant 8.5$^{\circ}$ 형 연소실, 노즐분공경 $\Phi$0.33*3+$\Phi$0.35*2, 노즐돌출량 3.18mm, 분사시기 BTDC 12$^{\circ}$CA, 과급기 T042(압축기 0.6A/R+46Trim, 터빈 1.0A/R+57Trim)경우가 기관성능 및 NO$_{x}$ 농도의 배출특성을 고려할 때 운전영역에서 가장 우수하여 흡기포트, 분사계 및 과급기에 대한 각 인자를 적정화할 수 있었다.

• 대한기계학회논문집B
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• 제35권10호
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• pp.1025-1031
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• 2011

자발화 특성은 디젤 및 PCCI 엔진의 설계에서 중요한 인자이다. 특히, 디젤분무화염은 자발화현상에 의해서 형성되어 노즐에서 부상된다. 노즐과 부상화염 사이의 영역에서 분무된 디젤의 중앙으로 주위 공기의 유입이 발생하기 때문에, 그 부상된 화염은 매연 생성에 영향을 준다. 본 연구에서 간단한 모델로써 동축류 제트를 적용하였고, 점화지연시간에 대한 자발화 과정에서 발생하는 열손실의 영향을 확인하였다. 메탄($CH_4$), 에틸렌($C_2H_4$), 에탄($C_2H_6$), 프로핀($C_3H_6$), 프로판($C_3H_8$), 및 노말 부탄(n-$C_4H_{10}$)의 연료들을 고온의 공기로 분사하였으며 자발화된 부상화염의 높이를 측정하였다. 그 결과로 자발화된 부상화염의 높이와 열손실을 고려한 점화지연시간과의 상관관계를 결정하였다.

• 한국분무공학회지
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• 제12권3호
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• pp.154-159
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• 2007

Spray tip penetration and spray angle for one main injection were measured at the atmospheric condition with the fuel injection pressure of 270 bar and 540 bar. It investigates an effect of different nozzle hole geometry of conventional cylindrical one and those of elliptical ones. Injection period represented by injector pulse drive was fixed at 1ms. From the result of this study, it is shown that spray tip penetration becomes shorter and spray angle becomes wider with the elliptical nozzle hole geometry due to fast break-up of a fuel liquid column.

• 한국마린엔지니어링학회:학술대회논문집
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• 한국마린엔지니어링학회 2005년도 후기학술대회논문집
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• pp.13-14
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• 2005

Multi-dimensional combustion analysis and experiment has been carried out to investigate the effects of the injector nozzle hole diameter and number on the NOx formation and fuel consumption in HYUNDAI HiMSEN engine. The behavior of spray and combustion phenomena in diesel engine was examined by FIRE code. Wave breakup and Zeldovich models were adopted to describe the atomization characteristics and NOx formation. Wallfilm model suggested by Mundo, et al. and auto-ignition model suggested by Theobald and Cheng were adopted to investigate the spray-wall interaction characteristics and ignition delay. The information of spray angle and spray tip penetration length was extracted from fuel spray visualization experiment and the fuel injection rate profile was extracted from fuel injection system experiment as an input and verification data for the combustion analysis. Next, the nine different nozzle configurations were simulated to evaluate the effect of injector hole diameter and number on the NOx formation and fuel consumption.

• 한국분무공학회지
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• 제10권1호
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• pp.24-34
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• 2005

Injection technology is one of the important technologies in a diesel engine. Many studies have done on the injection system. In this study, the fuel chamber geometry, the orifice ratio and the needle lift of the injection valve for a marine diesel engine are varied, and simulated. The result shows that the nozzle hole size has influence on the rail pressure and injection duration sensitively. The decrease of the static pressure at the nozzle hole entrance and the increase of the dynamic pressure on the outlet surface are occurred with the increase of the nozzle hole diameter. The highest dynamic pressure of the outlet was occurred at the needle lift of 0.4mm and the nozzle hole diameter of 0.328mm in this test nozzle.

• 한국자동차공학회논문집
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• 제10권3호
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• pp.1-7
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• 2002

Recently, many researches for the improvement of DI diesel engines have been performed to reduce the fuel consumption and exhaust emissions. Among the various factors effect on combustion and emission in Dl diesel engines, one of the most important factors is the characteristics of the fuel spray. Accordingly, the investigation on the characteristics of spray is needed to analyze the diesel combustion exactly, In this study, the measurement technique fur injection rate using the Zeuch method was developed. In addition, the effects of nozzle hole number on the spray and flame were investigated by visualization experiment.

• 오토저널
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• 제15권1호
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• pp.37-44
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• 1993

Fuel injection system is an important tool in the exhaust emission and performance of a diesel engine. Effects of the fuel injection system in diesel combustion was investigated experimentally by measuring the performance and analyzing the combustion phenomena in a D.I. diesel engine. The selected injection parameters were nozzle opening pressure, nozzle projection length, and nozzle spray angle. From the measured results, it is shown that the fuel injection pipe diameter is an effective means to improve engine performance in a middle and high speed range and the 2 stage spring nozzle holder has the advantage of increasing the engine performance due to the initial injection pressure in a low speed range. It has been also shown that increasing nozzle opening pressure resulted in decrease in smoke, but increase in NO$_{x}$ from the engine.e.

• 한국분무공학회지
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• 제6권3호
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• pp.32-37
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• 2001

The characteristics of engine performance with fuel injection system in D.I. diesel engine were studied in this paper. A fuel injection system has an important role in the performance and emission gas in a diesel engine. In this paper, an experimental study has been performed to verify the effect of the performance and the emission gas with the factors such as diameters of an injection nozzle hole, diameters of an injection pipe and injection timing in the fuel injection system. The authors have obtained the results that optimizing the factors of fuel injection system is significant to enhance the performance of the engine system and consumption ratio of fuel, smoke, and NOx.