• 대한기계학회:학술대회논문집
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• 대한기계학회 2005년도 창립60주년 기념 추계 학술대회
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• pp.99.1-99.1
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• 2005

• 수산해양기술연구
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• 제23권2호
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• pp.8-8
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• 1987

1986년 8월 1일부터 8월 30일까지 완도, 목포, 흑산도 항로와 흑산도에서 제주항 항로상에서 해상이 잔잔한 날을 택하여 실습선 부산403호의 순항시와 표박시의 주기관과 각 갑판의 선수미선상에서의 주요장소에서의 진동과 소음준위를 측정하고 진동분석을 통하여 진동변위, 속도, 가속도를 비교·고찰한 결과를 요약하면 다음과 같다. 1. 진동과 소음압준위. 1) 주갑판상에서 진동과 소음준위가 가장 높은 곳은 주기관의 수직상면이고 가장 낮은 곳은 소음은 선교수직하, 진동은 선수부창고의 수직하면에서이다. 2) 주기관 cylinder head, 기관실 좌측, 축계관상부에서 순항시의 진동준위는 80, 67, 65dB이고, 소음준위는 각각 104, 87, 86dB이다. 3) 선교를 통과하는 수직선상의 진동준위는 최저갑판에서 60dB로 가장 높고, 선교갑판에서 55dB로 가장 낮으며, 소음준위는 compass deck에서 75dB로 가장 높고, 최저갑판에서 53dB로 가장 낮다. 4) 노천갑판에서 진동과 소음준위는 모두 보우트갑판에서 각각 65, 84dB로 가장 높고, 진동준위는 교실 위에서 51dB, 소음준위는 선수누갑판에서 57dB로 가장 낮다. 5)최저갑판의 진동과 소음준위는 모두 기관실에서 가장 높아 각각 65dB, 85dB이고, 선수부창고에서 가장 낮아 각각 54dB, 52dB이다. 진동준위와 소음준위를 비교하면 기관실을 중심으로 하여 선수쪽에서 진동준위가 높고, 선미쪽에서는 소음준위가 높다. 2. 진동분석 1) 진동변위는 주기관 cylinder head에서 100μm로 가장 크고, compass deck에서는 3μm로 가장 작다. 또 진동속도는 주기관 cylinder head에서 11mm/sec로 가장 빠르고, compass deck에서 0.07mm/sec로 가장 느리며, 이들은 모두 100Hz 이상에서는 급격한 감쇄를 보였다. 2) 진동가속도는 주기관 cylinder head에서 중심주파수 1KHz, 1.1mm/sec 상(2) 로 가장 빠르고 compass deck에서 30Hz, 0.05mm/sec 상(2) 로 가장 느리다.

• 수산해양기술연구
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• 제23권2호
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• pp.54-60
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• 1987

1986년 8월 1일부터 8월 30일까지 완도, 목포, 흑산도 항로와 흑산도에서 제주항 항로상에서 해상이 잔잔한 날을 택하여 실습선 부산403호의 순항시와 표박시의 주기관과 각 갑판의 선수미선상에서의 주요장소에서의 진동과 소음준위를 측정하고 진동분석을 통하여 진동변위, 속도, 가속도를 비교.고찰한 결과를 요약하면 다음과 같다. 1. 진동과 소음압준위. 1) 주갑판상에서 진동과 소음준위가 가장 높은 곳은 주기관의 수직상면이고 가장 낮은 곳은 소음은 선교수직하, 진동은 선수부창고의 수직하면에서이다. 2) 주기관 cylinder head, 기관실 좌측, 축계관상부에서 순항시의 진동준위는 80, 67, 65dB이고, 소음준위는 각각 104, 87, 86dB이다. 3) 선교를 통과하는 수직선상의 진동준위는 최저갑판에서 60dB로 가장 높고, 선교갑판에서 55dB로 가장 낮으며, 소음준위는 compass deck에서 75dB로 가장 높고, 최저갑판에서 53dB로 가장 낮다. 4) 노천갑판에서 진동과 소음준위는 모두 보우트갑판에서 각각 65, 84dB로 가장 높고, 진동준위는 교실 위에서 51dB, 소음준위는 선수누갑판에서 57dB로 가장 낮다. 5)최저갑판의 진동과 소음준위는 모두 기관실에서 가장 높아 각각 65dB, 85dB이고, 선수부창고에서 가장 낮아 각각 54dB, 52dB이다. 진동준위와 소음준위를 비교하면 기관실을 중심으로 하여 선수쪽에서 진동준위가 높고, 선미쪽에서는 소음준위가 높다. 2. 진동분석 1) 진동변위는 주기관 cylinder head에서 100$\mu$m로 가장 크고, compass deck에서는 3$\mu$m로 가장 작다. 또 진동속도는 주기관 cylinder head에서 11mm/sec로 가장 빠르고, compass deck에서 0.07mm/sec로 가장 느리며, 이들은 모두 100Hz 이상에서는 급격한 감쇄를 보였다. 2) 진동가속도는 주기관 cylinder head에서 중심주파수 1KHz, 1.1mm/sec 상(2) 로 가장 빠르고 compass deck에서 30Hz, 0.05mm/sec 상(2) 로 가장 느리다.

• 한국가시화정보학회지
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• 제9권4호
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• pp.16-21
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• 2011

The effects of stroke change on turbulent kinetic energy for the in-cylinder flow of a four-valve SI engine were studied. For this study, the same intake manifold, head, cylinder, and the piston were used to examine turbulence characteristics in two different strokes. In-cylinder flow measurements were conducted using three dimensional LDV system. The measurement method, which simultaneously collects 3-D velocity data, allowed a evaluation of turbulent kinetic energy inside a cylinder. High levels of turbulent kinetic energy were found in regions of high shear flow, attributed to the collisions of intake flows. These specific results support the more general conclusion that the inlet conditions play the dominant role in the generation of the turbulence fields during the intake stroke. However, in the absence of two counter rotating vortices, this intake generated turbulent kinetic energy continues to decrease but at a much faster rate.

• 동력기계공학회지
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• 제15권1호
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• pp.5-10
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• 2011

The spatial fuel vapor distribution of the homogeneous charge by a 6-hole injector was examined in a optically accessed single cylinder direct injection spark ignition(DISI) engine. The effects of in-cylinder charge motion, and fuel injection pressure, and coolant temperature were investigated using a planar LIF (Laser Induced Fluorescence) technique. It was confirmed that the in-cylinder tumble flow played a little more effective role in the spatial fuel vapor distribution than the swirl flow during the compression stroke at 10 mm and 2 mm planes under cylinder head gasket and the increased fuel injection pressure activated spatial distributions of the fuel vapor. In additions, richer mixtures were concentrated around the cylinder wall by the increase of the coolant temperature.

• 한국자동차공학회논문집
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• 제9권3호
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• pp.1-8
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• 2001

The flow field inside a cylinder of four-valve Sl engine was investigated quantitatively using a three-dimensional Laser Doppler Velocimetry system, to determine how stroke changes affect the flow field. The purpose of this work was to develop quantitative methods which correlate in-cylinder flows to engine performance. For this study, the sane intake manifold, engine head, cylinder, and the piston were used to examine the flow characteristics in different strokes. Quantification of the flow field was done by calculating three major parameters which are believed to adequately characterize in cylinder motion. These quantities were TKE, tumble and swirl ratios. The LDV results reveal that flow patterns are similar, the flow velocities scale with piston speed but another parameters such as TKE, and tumble and swirl numbers are not the same for different stroke systems.

• 한국자동차공학회논문집
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• 제9권3호
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• pp.9-17
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• 2001

This paper is the second of 3 companion papers which investigate axial stratification process. In-cylinder fuel behavior has been investigated in the port injected Sl engine by visualizing for the purpose of understanding stratification. Planar laser light sheet from an Nd:YAG laser has been illuminated through the transparent quartz cylinder of the single cylinder optical engine and the Mie scattered light has been captured through the quartz window in the piston head with an ICCD camera. Fuel has been replaced with an air-ethanol mixture to utilize atomized fuel spray fur the visualization purposes. This results have been compared with steady flow concentration measurement. For low/medium swirl port, the early injection makes such a fuel distribution state that is upper-rich, middle-lean and lower-rich along the combustion chamber and cylinder by tumbling motion. On the other hand, the late injection induces upper-rich, middle-lean and lower-rich state due to the short fuel penetration.

• 한국자동차공학회논문집
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• 제9권3호
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• pp.18-26
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• 2001

This paper is the third of 3 companion papers which investigate axial stratification process. In-cylinder fuel behavior has been investigated in the port injected SI engine by visualizing for the purpose of understanding stratification. Planar laser light sheet from an Nd:YAG laser has been illuminated through the transparent quartz cylinder of the single cylinder optical engine and the Mie scattered light has been captured through the quartz window in the piston head with an ICCD camera. Fuel has been replaced with an air-ethanol mixture to utilize atomized fuel spray for the visualization purposes. This results have been compared with steady flow concentration measurement. In high swirl port, the most fuel remains at combustion chamber and upper cylinder region without being affected by injection timing. The macro-distributed state is not changed but the difference of the amount of fuel around the spark plug varies according to injection timing, which determines LML.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2003년도 춘계학술대회
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• pp.2233-2238
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• 2003

It is well known that organized vortex rotations swirl and tumble greatly affect the mixing, the combustion and heat transfer processes in engine cylinder. We have developed 3 dimensional numerical simulation codes whose predictions make good agreement with the experimental data. Large eddy simulation based on Smagorinsky subgrid scale model was adopted to describe the turbulence of in-cylinder flows. The tumble motions generated by different inclination angles between valve-port and cylinder head have been calculated. The results show that the angles between direction of induced flow and cylinder walls which the flow collides with play a great role in the formation and generation of tumble motions. Therefore, it is inferred that seat angle and inclination angle are important factors of engine design. In addition, the numerical results of different engine speed -1000 rpm and 3000 rpm are very similar in the flow structure.

• 한국공작기계학회논문집
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• 제13권1호
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• pp.76-80
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• 2004

Cushion sleeves are used in pneumatic cylinders to avoid impact force arising at the end stroke part between moving piston and cylinder cover. In this study low kinds of cushion sleeves are designed, manufactured and attached to the pneumatic cylinder to be experimented. The effects of cushion sleeves on cushion characteristics are investigated. e results are as follows; the pressure variation of cushion room with orifices are inspected to be smaller than that of cushion room without orifices. So sleeves with orifices are expected as protecting from impact and vibration of pneumatic cylinder. The object of this study is to provide data on the charactristics of pneumatic cushion sleeve in case of being used in industry.