• 한국안전학회지
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• 제37권4호
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• pp.113-119
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• 2022

Sudden intrusion of a large amount of surface water into a flood defensive tunnel or pipeline system can compress the residual air. The compressed air may explode along with water through the inlet or air vent, resulting in hydraulic capacity degradation or safety hazards. This study aims to investigate the behavior of compressed air body in pipelines according to the residual air condition with a series of laboratory experiments measuring pressure variation. It has been found that flow characteristics and residual air conditions have a dominant influence on the magnitude and periodicity of the pressure variation. A proper measure to effectively control the residual air is required for securing the design capacity of flood defensive pipeline systems, since the peak pressure is predominantly affected by residual air conditions.

• Journal of Biosystems Engineering
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• 제29권1호
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• pp.37-44
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• 2004

This study was conducted to develop a new drying method far reducing the drying cost and time and to investigate the drying characteristics of oak mushroom. A far infrared dryer of down draft air flow type used for this experiment can control the drying parameters, such as far infrared heater temperature and aeration velocity. The far infrared drying tests were performed at aeration velocities of 0.3 and 0.6m/s under the temperature of 90 and 100$^{\circ}C$ in for infrared heater, respectively. The results were compared and analyzed with those of an heated air drying method used as a control in terms of properties representing the drying characteristics. such as shrinkage rate, color, energy consumption amino acid components, drying rate and moisture ratio. The results obtained from this research can be summarized as follows. 1. The drying rate of far infrared drying was faster than that of heated air drying. With high temperature of far infrared heater and slow aeration velocity, the far infrared drying of down draft air flow type was superior to the heated air drying. 2. Most of far infrared drying conditions required less energy consumption than heated air drying. 3. The shrinkage rates of heated air drying and far infrared drying were decreased by 17.0% and 18.2∼19.8%, respectively. 4. The difference of color on oak mushroom surface before and after drying can be represented as $\Delta$E. $\Delta$E values of far infrared drying and heated air drying were 2.39∼4.55 and 6.77, respectively. 5. The amounts of free amino acids were higher in the far infrared than in the heated air drying. In addition the amounts of Gln and Glu generally were increased and those of Ala, Leu, and Val were decreased in order.

• 한국항행학회논문지
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• 제14권2호
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• pp.161-169
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• 2010

최근 항공교통량의 증가에 따라 보다 효율적인 항공교통흐름제어가 요구되고 있다. 이에 본 논문에서는 효율적인 항공관제를 위하여 항공기의 흐름을 유연하게 하기 위한 알고리즘 기법을 연구하였다. 항공교통 환경은 일반 교통 환경과는 다르게 항공기 기종에 따른 수평 및 수직 분리 간격이 존재한다. 빈센티 공식을 이용하여 항로의 거리를 산출하고 다익스트라 알고리즘을 이용하여 항로의 거리에 교통량을 적용하여 가중치를 생성하고 이를 이용하여 항공기가 연료 및 시간의 낭비를 최소화하는 항로를 선택하도록 하였다. 성능평가 결과 기존의 항로 연산 알고리즘의 단순한 최단항로 산출과는 달리 제안된 알고리즘은 교통량 파악을 통한 최적항로를 선택함으로써 효율적으로 항공교통관제를 할 수 있음을 확인하였다.

• 항공우주기술
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• 제7권1호
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• pp.40-48
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• 2008

공기 혼합시스템은 초음속 지상추진시험설비의 축열식 가열기로부터 공급되는 $1000^{\circ}C$, 3.5MPa의 공기와 고압공기 공급원으로부터 공급되는 상온, 동일 압력의 공기를 혼합시켜서 시험부로 공급하기 위한 설비로 32MPa로 압축되어 있는 고압공기 공급원을 3.5MPa로 감압하는 고압/저온 유동제어부, 축열식 가열기의 고온밸브에서부터 공기 혼합기로 고온의 공기를 공급하기 위한 고온 배관, 축열식 가열기로부터 공급되는 고온 유동과 고압공기 공급원으로부터 공급되는 상온 유동을 혼합하기 위한 공기 혼합기로 구성된다. 공기 혼합 시스템을 통하여 완전히 혼합된 공기의 유량은 25kg/s, 온도는 약 $400^{\circ}C$로 이를 통하여 초음속 지상추진시험설비의 구동 영역을 저 마하수, 저 고도 영역까지 확장할 수 있다.

• 한국화재소방학회논문지
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• 제30권5호
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• pp.87-92
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• 2016

국내에서는 고층 및 복합 건축물이 다수 시공되고 있는 상황에서 화재시 실효성 있는 연기대응 기술의 확립이 요구되고 있으며, 고층 건축물에서 제연설비에 대한 대안으로서 샌드위치 가압을 이용하는 연기제어 시스템의 적용이 확대되고 있다. 샌드위치 가압을 이용하는 연기제어 시스템은 연기확산 방지와 원할한 피난환경 제공을 위해서 적정 층간차압과 이를 위한 급배기 풍량의 설계에 관한 자료가 확보되어야 한다. 본 논문에서는 이러한 연구의 일환으로서 샌드위치 가압을 이용하는 연기제어 시스템이 설치된 실제 건축물에서 수행한 현장실험의 과정과 결과를 제시하였다. 실험에서 화재층의 배기풍량과 상하부층의 급기풍량으로 시간당 6회의 환기횟수를 적용하였으며, 시스템 가동으로 화재층인 12층과 그 상부층인 13층 사이에 약 260 Pa의 압력차가 형성되었다. 이러한 압력차 형성은 피난 및 방화구획에 상당한 영향을 미치므로 이에 대한 추가적인 연구가 필요하다.

• 한국산업융합학회 논문집
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• 제4권3호
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• pp.243-251
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• 2001

The effects of various operating parameters(agitation speed, impeller type, antiform agents, impeller spacing etc.) on air-liquid mass transfer was characterized by volumetric mass transfer coefficient($k_La$). Also, the dual-impeller agitated systems are compared with single-impeller agitated systems with a special focus on its applications for bioreactors, $k_La$ was take over a range of 200~450 rpm of agitation speed, and 0.5~2.5 vvm of air flow rates, for four single impeller and impeller combinations consisting of four impeller types, namely rushton, pitched blade, scaba, intermig were tested. The rushton impeller showed the best $k_La$ as compared with other single impellers. The dual impeller system are found to be superior as compared to single impeller in all aspects, The best combination of the dual impeller was a intermig of axial flow type as an upper impeller and a rushton of radial flow type as a lower part. Also, the control of the DO level with the variation of agitation speed was more efficient than that with an increase in air flow rate. The addition of antiform dropped the $k_La$ very large up to 1g/L regardless the type. PPG was less effect on $k_La$ than other antiforms. The impeller spacing and presence of solute are found very effective on $k_La$. When the $NaNO_3$is presented as solute, the $k_La$ increased approximately 50% then control.

• 센서학회지
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• 제8권5호
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• pp.394-399
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• 1999

자동차용 박막 히터형 공기 유량센서는 스퍼터링법으로 백금박막을 증착하여 감광막 lift-off법으로 패터닝하고 $1,000^{\circ}C$에서 열처리하였으며, 이 박막을 보호하도록 폴리이미드 PI-2723을 백금박막 위에 도포하여 보호막으로 사용하였다. 제작한 센서를 유량에 따른 특성을 측정한 결과 출력전압이 유량의 4제곱에 비례하였고, 전체 측정 범위에서 유량에 따른 출력전압 오차는 0.7%이내 이었다 제작한 센서를 $-20^{\circ}C{\sim}120^{\circ}C$ 온도범위에서 실험한 결과 ${\pm}1%$의 온도에 따른 출력전압 오차가 발생하여 지금까지 개발된 유량센서의 ${\pm}3%$ 온도에 따른 출력전압 오차보다 ${\pm}2%$ 낮았다. 따라서 제작한 박막 히터형 공기 유량센서는 자동차에 적용하기 위한 사양을 만족하며 온도에 따른 출력전압 오차가 작으므로, 자동차 엔진의 공연비를 정확하게 제어할 수 있게 되어 배기가스 중 오염물질을 줄이고 연비를 향상시킬 수 있다.

• 한국자동차공학회논문집
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• 제14권1호
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• pp.129-137
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• 2006

This paper studies the effects of the swirl for the variation of intake port configuration that is key parameters in the flow field of direct injection diesel engines. In-cylinder flow characteristics is known to have significant effects on air-fuel mixing, combustion, and emissions. To investigate the effects of the swirl flow, various rpm(250, 500, 750) and two different intake port were used. And to evaluate the swirl motion in the flow field visualization engine, steady state flow test was conducted. Helical port intake port and SCV(Swirl Control Valve) were selected as the design parameters to increase the swirl flow and parametric study was performed. In the case of non-SCV, intake flow rate and non-dimensional swirl ratio were higher than those of SCV for the swirl head type. So, we could strengthen the swirl in the flow field with the swirl head type and don't using SCV. From the results of steady state flow test, non-swirl head type has the most good advantage for intake flow rate, and also the flow rate could be increased by using the SCV slightly. The effects of the type of engine head on intake air flow capability are dominant with respect to the existence of the SCV. We could measure the qualitative grade of swirl by capturing the scattering signal of microballoon from ICCD camera in the visualization diesel engine.

• 한국분무공학회지
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• 제18권1호
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• pp.9-15
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• 2013

Wall thinning of pipeline in power plants occurs mainly by flow acceleration corrosion (FAC), cavitation erosion (C/E), liquid droplet impingement erosion (LDIE). Wall thinning by FAC and C/E has been well investigated; however, LDIE in plant industries has rarely been studied due to the experimental difficulty of setting up a long injection of highly-pressurized air. In this study, we designed a long-term experimental system for LDIE and investigate the behavior of LDIE for three kinds of materials (A106B, SS400, A6061). The main control parameter was the air-water ratio (${\alpha}$), which was defined as the volumetric ratio of water to air (0.79, 1.00, 1.72). In order to clearly understand LDIE, the spraying velocity (${\nu}$) of liquid droplets was controled larger then 160 m/s and the experiments were performed for 15 days. Therefore, this research focuses relation between erosion rate and air-water ratio on the various pipe-flow materials. NPP(nuclear power plant)'s LDIE prediction theory and management technique were drawn from the obtained data.

• 설비공학논문집
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• 제26권6호
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• pp.257-262
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• 2014

This paper describes an experimental study for heating performance that can be used in R-134a automobile heat pump systems. The heat pump system is widely studied for heating system in zero-emission vehicles to attain both the small power consumption and the effective heating of the cabin. This paper presents the experimental results of the influence on heating capacity and coefficient of performance of heat pump system. Tests were performed with different sizes of internal and external heat exchangers, and refrigerant flow rate was also considered in two-way flow devices. In addition, the heat, air, and water sources with the heat pump system were examined. The experimental results with the heat pump system were used to analyze the impact on performances. The best combination of performance was A-inside heat exchanger, B-outside heat exchanger, and B-flow device, respectively. In addition, a water heat-source was found to give roughly 40% of better performance than an air heat-source heat pump system.