• 한국추진공학회지
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• 제21권3호
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• pp.49-55
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• 2017

가스터빈엔진의 성능시험을 위한 엔진 입구덕트를 1D 기법으로 Sizing 하였으며, 압축기 입구유동측정면(AIP, Aerodynamic interface plane)에서 경계층 두께를 최소화하고, 코어부 마하수분포가 균일하도록 설계하였다. 노즈콘 형상은 Haack-series 모델을 적용하고, 덕트 안쪽과 바깥쪽 면적변화율이 동일하도록 입구덕트 채널 바깥반경($r_o$)를 결정하여 설계목적을 구현하고자 하였으며, 이러한 형상이 설계목표에 부합하는지 확인하기 위하여 CFD를 수행하였다. AIP면에서 정압력분포는 최대값과 최소값 차이가 0.16% 이었으며, 마하수분포에서 경계층은 덕트반경 길의 2% 이내로 설계목표를 만족하였다. 이때 균일유동 코어부는 채널높이의 95% 이상이었다. 또한 입구유동의 전온도를 측정하기 위한 키엘 전 온도레이크 위치는 온도 회복계수가 최대화 되도록 마하수가 0.1 이하 지역인 노즈콘 전방 100 mm 이내이어야 함을 확인하였다.

• 한국항해항만학회지
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• 제30권1호
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• pp.113-117
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• 2006

이 실험의 목적은 튜브형 증발관에서 입구 공기 속도, 온도와 상대 습도에 따른 서리층 생성의 비교 검토에 있다. 입구 공기 속도와 온도는 각각 $0.3^m/_s,\;0.6^m/_s,\;0.9^m/_s,\;15^{\circ}C,\;20^{\circ}C,\;25^{\circ}C$로 하였고, 상대 습도는 $70\%\~90\%$로 하였다. 그리고 일반적인 공조기용 열교환기에서의 서리발생 현상을 파악하기 위하여 냉각튜브의 온도를 $-15^{\circ}C$로 일정하게 유지하였다. 그 결과 공급공기의 상대습도, 유속 및 온도가 증가할수록 서리 생성량이 증가함을 알 수 있었다.

• Journal of Microbiology and Biotechnology
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• 제23권3호
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• pp.335-342
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• 2013

In this study, we compared the performance of two control systems, fuzzy logic control (FLC) and conventional control (CC). The control systems were applied for controlling temperature and substrate moisture content in a solidstate fermentation for the biosynthesis of amylase and protease enzymes by Aspergillus oryzae. The fermentation process was achieved in a 200 L rotating drum bioreactor. Three factors affecting temperature and moisture content in the solid-state fermentation were considered. They were inlet air velocity, speed of the rotating drum bioreactor, and spray water addition. The fuzzy logic control system was designed using four input variables: air velocity, substrate temperature, fermentation time, and rotation speed. The temperature was controlled by two variables, inlet air velocity and rotational speed of bioreactor, while the moisture content was controlled by spray water. Experimental results confirmed that the FLC system could effectively control the temperature and moisture content of substrate better than the CC system, resulting in an increased enzyme production by A. oryzae. Thus, the fuzzy logic control is a promising control system that can be applied for enhanced production of enzymes in solidstate fermentation.

• 한국수소및신에너지학회논문집
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• 제31권2호
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• pp.169-176
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• 2020

There is a growing interest in hydrogen energy utilization since an alternative energy development has been demanded due to the depletion of fossil fuels. Hydrogen is produced by the reforming reaction of natural gas and biogas, and the electrolysis of water. An solid oxide electrolyte cell (SOEC) is reversible system that generates hydrogen by electrolyzing the superheated steam or producing the electricity from a fuel cell by hydrogen. If the water can be converted into steam by waste heat from other processes it is more efficient for high-temperature electrolysis to convert steam directly. The reasons are based upon the more favorable thermodynamic and electrochemical kinetic conditions for the reaction. In the present study, steam at over 180℃ and 3.4 bars generated from a boiler were converted into superheated steam at over 700℃ and 3 bars using a cylindrical steam superheater as well as the waste heat of the exhaust gas at 900℃ from a solid refuse fuel combustor. Superheated steam at over 700℃ was then supplied to a high-temperature SOEC to increase the hydrogen production efficiency of water electrolysis. Computational fluid dynamics (CFD) analysis was conducted on the effects of the number of 90° elbow connector for piping, insulation types and insulation layers of pipe on the exit temperature using a commercial Fluent simulator. For two pre-heater injection method of steam inlet and ceramic wool insulation of 100 mm thickness, the highest inlet temperature of SOEC was 744℃ at 5.9 bar.

• 한국추진공학회:학술대회논문집
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• 한국추진공학회 2008년도 제31회 추계학술대회논문집
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• pp.94-97
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• 2008

부분 흡입형 터빈의 표면 가스온도 분포 해석은 유동장 내부가 3차원의 매우 복잡한 유동장을 구성하기 때문에 실제 해석상 많은 시간이 소요된다. 파이로 시동기는 입사각 $18^{\circ}$로 설치되어 있으며, 105개의 충동형 터빈 블레이드로 구성되어 있다. 다양한 파이로 시동기 압력 변화에 대하여 터빈 블레이드의 표면 가스온도 분포 해석이 이루어 졌으며, Round형의 터빈 블레이드는 1423K의 온도와 7.2MPa의 압력 조건에서 16000rpm까지 회전하게 된다. 파이로 시동기의 압력과 터빈 블레이드의 회전수가 증가함에 따라 터빈 블레이드의 표면 가스 온도는 하강하게 되며, 파이로 시동기 압력이 5.75MPa 이고 회전수가 12100rpm의 보다 증가함에 따라 터빈 블레이드로 입구의 유동장에는 균일한 표면 가스 온도가 유입되는 것을 확인 할 수 있었다.

• 동력기계공학회지
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• 제10권4호
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• pp.43-49
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• 2006

Nowadays, the thermal environments of classrooms are usually adjusted by the ceiling type air-conditioning system with a temperature sensor installed on inlet of an air-conditioner. However, it is not clear that the conventional temperature sensor position is proper to satisfy both thermal comport and energy saving in summer especially. Therefore, this study is aimed at finding out the best position of the temperature sensor on the purpose of the comfort thermal environment and energy saving. The different 5 positions for the temperature sensor are supposed in this paper to analyze thermal environment by CFD. From the analysis through the CFD simulations, the best position of the temperature sensor satisfying for both comfort thermal environment and energy saving is obtained.

• 약학회지
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• 제16권1호
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• pp.55-64
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• 1972

The determination method of l-ephedrine and dl-methylephedrine by gas chromatography was developed, using reactive alkaline precolumn packed with celite 545 containing KOH. Symmetrical peaks were achieved under the condition, inlet temperature, $180^{\circ}C$-$230^{\circ}C$; column temperature, $180^{\circ}C$- $160^{\circ}C$; carrier gas flow rate, 30ml/minute. The peaks of the salts coincided with those of bases. When this method was applied to preparations, using d-dimethylaminobenzaldehyde as inner standard, good results were obtained. The relative retention times of l-ephedrine and dl-methylephedrine to p-dimethyl aminobenzaldehyde were 0.50 and 0.65 respectively.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2001년도 춘계학술대회논문집D
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• pp.433-439
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• 2001

An experimental study was carried out on the characteristics of the mixed-convection heat transfer from a protruding heat source module which had uniform heat flux and was located on a flat plate in the inclined channel. The effects of the inclined channel(${\varphi}=0{\sim}90^{\circ}$) was studied for the input power($Q=3,\;7W$) and inlet air velocities($V_{i}=0.1{\sim}0.9m/s$). Experimental results indicate that the input power was most effective parameter on the temperature differences between inlet air and module. The effects of the inclined angle was negligible when the inlet velocities were above 0.5m/s and 0.9m/s at Q = 3W, 7W respectively. As the inclined angle of the channel increases, the temperatures of the module are decreased. So we obtained the best condition on the adiabatic board at the vertical channel.

• International Journal of Air-Conditioning and Refrigeration
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• 제15권1호
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• pp.34-45
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• 2007

In order to reduce the compression power and to use the overall energy contained in LNG effectively, a combined cycle is devised and simulated. The combined cycle is composed of two cycles; one is an open cycle of liquid/solid carbon dioxide production cycle utilizing LNG cold energy in $CO_2$ condenser and the other is a closed cycle gas turbine which supplies power to the $CO_2$ cycle, utilizes LNG cold energy for lowering the compressor inlet temperature, and uses the heating value of LNG at the burner. The power consumed for the $CO_2$ cycle is investigated in terms of a solid $CO_2$ production ratio. The present study shows that much reduction in both $CO_2$ compression power (only 35% of the power used in conventional dry ice production cycle) and $CO_2$ condenser pressure could be achieved by utilizing LNG cold energy and that high cycle efficiency (55.3% at maximum power condition) in the gas turbine could be accomplished with the adoption of compressor inlet cooling and regenerator. Exergy analysis shows that irreversibility in the combined cycle increases linearly as a solid $CO_2$ production ratio increases and most of the irreversibility occurs in the condenser and the heat exchanger for compressor inlet cooling. Hence, incoming LNG cold energy to the above components should be used more effectively.

• 한국연소학회지
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• 제13권2호
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• pp.1-6
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• 2008

An experimental study of the flame response in a turbulent premixed combustor has been conducted with room temperature, atmospheric pressure inlet conditions using premixed natural gas. The fuel is premixed with the air upstream of a choked inlet to avoid equivalence ratio fluctuations. Therefore the observed flame response is only the result of the imposed velocity fluctuations, which are produced using a variable speed siren. Measurements are made of the velocity fluctuation in the nozzle using hot wire anemometry and of the heat release fluctuation in the combustor using chemiluminescence emission. The results are analyzed to determine the phase and gain of the flame transfer function as a function of the modulation frequency. Of particular interest is the effect of flame structure on the flame response predictions and measurements. The results show that both the gain and the phase of flame transfer function are closely associated with the flame length and structure, which is dependent upon the upstream flow perturbation as well as equivalence ratio in the current study.