• Journal of Advanced Marine Engineering and Technology
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• 제24권6호
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• pp.147-154
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• 2000

A numerical procedure to analyze 3-dimensional elastohydrodynamic lubrication was applied on the cam-roller contact of the valve mechanism for a marine diesel engine. Both the pressure distribution and the film thickness between the cam and roller follower were calculated for each time step of the whole cycle. The pressure spike is shown at the outlet of the roller edge and it is getting higher as the external load is increased. An effective profiling method for the roller edge was suggested using the results of elastohydrodynamic lubrication analysis and the peak pressure was removed completely with the new profiling.

• Journal of Electrical Engineering and Technology
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• 제6권3호
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• pp.423-430
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• 2011

Multi-input multi-output (MIMO) dynamic matrix control (DMC) technique is applied to control steam temperatures in a large-scale ultrasupercritical once-through boiler-turbine system. Specifically, four output variables (i.e., outlet temperatures of platen superheater, finish superheater, primary reheater, and finish reheater) are controlled using four input variables (i.e., two spray valves, bypass valve, and damper). The step-response matrix for the MIMO DMC is constructed using the four input and the four output variables. Online optimization is performed for the MIMO DMC using the model predictive control technique. The MIMO DMC controller is implemented in a full-scope power plant simulator with satisfactory performance.

• 유공압시스템학회논문집
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• 제4권2호
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• pp.28-33
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• 2007

In the power plant facility which use soft coal as a power source the fan pitch blade control hydraulic actuator is used to control the inlet and outlet gas to regulate the internal pressure of the furnace and control the frequence. Sometimes malfunctions of this equipment lead to the decline of boiler thermal efficiency and unexpected power plant trip. In order to localize the fan pitch blade control hydraulic actuator specially for the 500MW large scale boiler, Analysis and modelling of the system is carried out mathematically. The responses of the system are examined by using matlab simulation fur the variation of the major parameters in view of reverse engineering. Consequently the validity of the established parameters are examined.

• 설비공학논문집
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• 제13권6호
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• pp.431-439
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• 2001

Recently, multi-room type heat pump system has aroused much attention, because it can achieve much reduction of installation cost and space as well as energy saving in companion with the single room type heat pump system. In the present study, performance characteristics of a 3 room type inverter driven heat pump system, which is widely spread in Japanese market, are measured.. In the single room operation, performances of a heat pump system such s the difference of compressor outlet and inlet pressures and the mass flowrate may increase with the increase of cooling capacity so that COP of the system decrease with the increase of cooling capacity. However, in the 2 room operation, mass flowrate and COP of the total system increase markedly as compared with the single room operation.

• Journal of Chest Surgery
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• 제56권6호
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• pp.456-459
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• 2023

Penetrating chest trauma may result in significant intracardiac injury. A traumatic ventricular septal defect is a rare complication that requires surgical management, particularly if heart failure ensues. We report a case of delayed repair of an outlet-type ventricular septal defect and perforation of the aortic and pulmonary valve leaflets following a stab wound. This report highlights diagnostic and surgical considerations and also presents an opportunity to review the conotruncal anatomy, which may be relatively unfamiliar to many adult cardiac surgeons.

• 한국화재소방학회논문지
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• 제27권6호
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• pp.1-7
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• 2013

본 연구에서는 옥외소화전의 디스크 형상을 고려한 압력손실에 관한 실험 및 수치해석 연구를 수행하였다. 옥외소화전의 압력손실은 국제 시험규격인 Underwriters Laboratory (UL)에서 제시하고 있는 시험방법을 적용하였으며, 옥외소화전의 입 출구 배관 직경을 고려한 압력손실 실험 장치를 제작하였다. 본 연구에서 사용한 옥외소화전은 입구 직경 150 mm 1개와 토출부 직경 63.5 mm 2개 그리고 직경 114.3 mm 1개인 구조로 직경 63.5 mm인 토출부는 유량범위 760 L/min~2,270 L/min, 직경 114.3 mm인 토출부는 3,030 L/min~6,060 L/min 범위에서 압력손실을 측정하고 유량계수를 구하였다. 동일한 실험조건에서 상용해석프로그램인 ANSYS Ver.14.0을 사용하여 압력손실 측정값과 해석결과를 비교하여 정확성을 확인하였으며, 다양한 디스크 형상을 모델링하여 압력손실에 중요한 영향을 미치는 인자를 분석하였다. 그 결과 옥외소화전은 디스크의 경사 각도가 $0^{\circ}$~$45^{\circ}$인 경우 유량계수는 494.46~680.64 ($L/min/kPa^{0.5}$)로 경사각이 작을수록 압력손실이 가장 낮게 나타나는 것을 수치적으로 분석하였다. 본 연구 결과는 옥외소화전의 성능인 압력손실을 예측하기 위한 디스크 형상의 설계 자료로 활용이 가능함을 확인하였다.

• 대한기계학회논문집A
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• 제33권5호
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• pp.469-473
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• 2009

We present high-voltage liquid-electrolyte microbatteries, inspired from the high-voltage generation mechanism of electric eels using serially connected multiple-cell arrays. In the microbatteries, we purge air into the electrolyte filled in a channel layer to isolate serially connected multiple cell arrays using three surface-tension valves (cell-front, outlet, and cell-end valves). Compared to the previous multi-cell stack or interconnection, present microbatteries provide a reduced multi-cell charging time. We have designed and characterized four different prototypes C1, C10, C20, and C40 having 1, 10, 20, and 40 cells, respectively. In the experimental study, the threshold pressures of cell-front, outlet, and cell-end valves were measured as $460{\pm}47$, $1,000{\pm}53$, and $2,800{\pm}170$ Pa, respectively. The average charging time for C40 was measured as $26.8{\pm}4.9$ seconds where the electrolyte and air flow-rates are 100 and $10{\mu}l/min$, respectively. Microbatteries showed the maximum voltage of 12 V (C40), the maximum power density of $110{\mu}W/cm^2$ (C40), and the maximum power capacity of $2.1{\mu}Ah/cm^2$ (C40). We also proposed a tapered-channel to remove the reaction gas from the cell chamber using a surface tension effect. The present microbatteries are applicable to high-voltage portable power devices.

• 한국분무공학회지
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• 제8권2호
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• pp.1-6
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• 2003

The liquid phase LPG injection (LPLI) system (the third generation technology) has been considered as one of the next generation fuel supply systems for LPG vehicles, since it has a very strong potential to accomplish the higher power, higher efficiency, and lower emission characteristics than the mixer type(the second generation technology) fuel supply system However. when a liquid LPG fuel is injected into the inlet duct of an engine, a large quantity of heat is extracted due to evaporation of fuel. This leads to freezing of the moisture in the air around the outlet of a nozzle, which is called icing phenomenon. It may cause damage to the outlet nozzle of an injector or inlet valve seat. In this work, the experimental investigation of the icing phenomenon was carried out The results showed that the icing phenomenon and process were mainly affected by humidity of inlet air instead of air temperature in the inlet duel. Also, it was observed that the total ice formed around the nozzle weighs at about $150mg{\sim}260mg$ after injection for ten minutes. And some fuel species were found in the ice attached at the front side of a nozzle, while frozen ice attached at the back of a nozzle was mostly' consisted of moisture of inlet air. Therefore, some frozen ice deposit. detached from front nozzle of an injector, may cause a problem of unfavorable air fuel ratio control in the small LPLI engine.

• 한국가스학회지
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• 제16권3호
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• pp.1-7
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• 2012

고압으로 수송되는 천연가스를 수요처에 공급하는 정압기지에서는 강제로 감압하여 보내준다. 이 때, 버려지는 압력에너지를 회수하는 방법으로 터보팽창기를 이용한 전력생산이 가능하며, 터보팽창기는 정압과 전력생산의 두 가지 기능을 동시에 수행하게 된다. 터보팽창기에서 생산되는 전력의 양은 유동전후의 엔탈피 차이며, 경제성에 영향을 미치는 주요인자로는 설비비, 전력생산량, 예열량, 전력가격, 가스가격의 5가지이다. 입구와 출구의 압력과 온도 조건이 고정되므로, 전력생산량은 결국 유량에 좌우된다. 따라서, 천연가스 수요의 계절별 수급변화 패턴에 따른 터보팽창기 적정용량을 결정하는 것이 경제성확보의 핵심기술이다. 유동량변화가 심한 경우의 전력생산량 산정법의 algorithm을 제시하였으며 이를 사용한 case study를 수행하였다.

• 해양환경안전학회지
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• 제27권2호
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• pp.355-362
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• 2021

L.P SCR의 촉매 반응을 위해 선박의 발전기용 4행정 디젤엔진의 배기가스 온도를 높게 설계 할 수밖에 없었다. 본 연구의 목적은 밸브개폐시기와 연료분사시기를 조정을 통한 배기가스의 온도 감소가 L.P SCR의 운전조건을 만족시키고 고온으로 인한 발전기 엔진의 사고를 예방하기 위함이었다. 배기가스 온도를 하강시키기 위해 캠샤프트의 각도를 조정하고 연료분사펌프의 Shim을 추가하였다. 그 결과 최대폭발압력은 12.8 bar 증가하였고 터보차저 출구온도 평균값은 13.3 ℃ 하강하였다. 터보차저 출구에서 SCR 입구까지의 열손실을 감안하더라도 L.P SCR 운전조건인 SCR 챔버 입구 온도인 290 ℃를 만족하였다. 배기가스 온도 하강을 통해 디젤발전기의 안전운전이 가능하게 한 연구였다.