• Journal of the Korean Society for Aeronautical & Space Sciences
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• v.50 no.2
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• pp.75-82
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• 2022

Nondestructive method to predict buckling load for the propellant tank of launch vehicle should be evaluated. Vibration correlation technique can predict the global buckling load of unstiffened cylindrical structure with geometric initial imperfection using correlation of natural frequency and compressive load from compressive test below the buckling load. In this study, vibration and buckling tests of a thin metal unstiffened propellant tank model subjected to internal pressure and compressive loads were performed and the test results were used for VCT to predict global buckling load. For the vibration test of thin structure, non-contact excitation method using a speaker was used. The response was measured with piezoelectric polymer(PVDF) sensor. Prediction results of VCT were compared with the measured buckling load in the test and the nondestructive global buckling load prediction method was verified.

• Journal of the Korean Chemical Society
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• v.47 no.3
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• pp.283-291
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• 2003

The purpose of this research was to analyze and improve the experiment, observing the color change under compression on the equilibrium of $2NO_2\;{\rightleftarrow}\;N_2O_4$ system, described in high school and general chemistry textbooks. Chemistry textbooks described that the reddish brown color got lighter on the compression of $2NO_2\;{\rightleftarrow}\;N_2O_4$ system. This misinterpretation was due to no consideration of $NO_2$ concentration increase by the volume decrease. In order to propose a correct interpretation, the changes of color and temperature on compression were quantitatively measured and compared with theoretical studies. In addition, an improved experiment, excluding the effect of $NO_2$ concentration increase, was proposed to observe only the color change of the net equilibrium shift.

• Journal of the Korean Institute of Gas
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• v.27 no.2
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• pp.1-6
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• 2023

PE piping, which has advantages in terms of construction convenience and economy, is widely used for underground burial in the domestic urban gas field. These PE pipes use squeeze-off in many sites to block gas flow during maintenance and repair work. Squeeze-off refers to a method of compressing a PE pipe to block fluid flow, and damage may occur due to the nature of construction in which the pipe is deformed by physical force. In order to prevent damage to PE pipes due to squeeze-off, the main points to be reflected in the squeeze-off operation procedures such as proper compression range, use pressure, and diameter were derived through damage assessment and confidential test according to the compression rate. The compression experiment for PE pipe damage assessment was conducted while changing the compression rate (20%~40%), the pressure of use (2.8 kPa, 25 kPa, 70 kPa), and the pipe diameters (63 mm, 90 mm, 110 mm). As a result of damage assessment according to the compression rate, damage occurred in pipes with compression rates of 45%(110mm) and 73%(63mm), which are for analyzing the effect of excessive compression. In addition, the leakage test was conducted using Ar(argon) during the squeeze-off, and as a result of the experiment, leakage occurred under the conditions of 70kPa and 110mm of pipe. As a result of this study, it was confirmed that squeeze-off for airtightness should be carried out in pipes within a range not exceeding 25 kPa and 90 mm pipes, and the appropriate compression rate to prevent damage to PE pipes is 30%.

• Journal of the Korean Institute of Gas
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• v.17 no.6
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• pp.46-51
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• 2013

Composite cylinder is used by hydrogen fuel cell vehicles and natural gas vehicles because of high specific modulus, specific strength and fatigue resistance. composite cylinder has a seamless integrated liner and it is fully overwrapped with structural fibers of high strength carbon fibers in an epoxy matrix. In this study, filament winding pattern and autofrettage pressure design technique are presented considering structural weakness of knuckle and compressive residual stress. Presented methodology is verified by pressure cycling test of composite cylinders.

• Transactions of the Korean Society of Mechanical Engineers
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• v.15 no.5
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• pp.1563-1571
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• 1991

본 연구에서는 가상일 원리로 부터 유한 요소 수식화를 updated-Lagrangian 형태로 유도하였으며, 유도된 수식화를 연속체 유한 요소로 유한 근사화 하였다. 이 때 초소성 재료의 거동은 비압축성, 비선형 점성 유ㄷ옹으로 묘사하였다. 유한 요소 프로그램은 성형 기구 해석과 하중 압력을 제어하는 기법으로 구성되어 있으며 하중 압력의 제어는 성형 시간이 최소가 되게 하기 위하여 변형률 속도 민감 계수가 최대가 되고, 국부 변형에 의한 두께 감소를 방지하며 변형률 속도는 일정하게 유지되면서 성 형이 될 수 있도록 하였다. 즉 하중 압력 제어는 상당 변형률 속도가 최대가 되게하 여 성형 시간을 최소화하게 구성하였다.개발된 유한 요소 프로그램은 정수압 벌징 가공에 적용하였으며 최적 압력 시간 선도, 성형 형상, 두께 및 두께 변형률 분포, 상 당 변형률 분포 등을 구하였다.

• Proceedings of the Korean Vacuum Society Conference
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• 2000.02a
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• pp.52-52
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• 2000

저진공 펌프 제작시 ISO, AVS 등의 국제규격에 ？춤은 필수이고, 도달진공도, 압력구간별·가스별 배기속도, 소음, 기름증기 역류, 압축비 등이 이에 해당된다. 큰 체적의 시험용기가 구비되어 있지 않은 경우에는 배기감압법 대신 일정유량 Q를 흘려 시험용기내에 일정압력 P를 유지시키면서 배기속도를 S=Q/P식으로 구하는 일정압력법을 사용한다. 이 실험은 800~2000 l/min급 유회전 펌프와 드라이 펌프로 압력별 배기속도를 측정, 분석하여 평가방법을 수립하였다. 또 국가 유량 표준기인 sonic nozzle을 reference로 하여, 기존의 유량측정 장비와의 오차를 비교하였다. 온도 상승도를 측정, 압력과의 상관관계를 비교하였고, 오차가 적은 CDG(1, 10, 100torr)를 사용하여, 압력측정의 정확도를 높였다. 비교적 outgassing이 적은 SUS 재질의 chamber를 썼고, 유량조절 장치로 미세누출밸브를 사용하였다.

• 한국신재생에너지학회:학술대회논문집
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• 2011.11a
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• pp.124.1-124.1
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• 2011

저온 고압의 환경에서 안정한 하이드레이트 함유 퇴적물 연구를 위하여 현장의 압력을 유지하여 코어를 회수할 수 있는 압력 코어러 (Pressure Corer)가 개발된 이후로 다양한 방법으로 압력코어를 이용한 연구가 진행되어 왔다. 하이드레이트의 안정영역 특성상 일반 코어러 샘플에서는 하이드레이트 함유 퇴적물의 회수가 용이하지 않았던 이유로 압력코어샘플응 이용한 현장 하이드레이트 함유 퇴적물의 연구는 필수적이다. 초기 단계에서는 압력코어를 이용한 비파괴 검사와 단순 감압 시험이 이루어졌다. 비파괴 검사를 통하여서는 X-ray 단면, 감마 밀도 (gamma density), 음파 속도 등이 측정 되었으며 감암 시험을 통하여서는 시료 내 하이드레이트 함유량을 산정하였다. 감압 후 다양한 지화학 분석이 후행되었다. 가스 하이드레이트 함유 퇴적물의 물성과 생산 거동이 점차 부각됨에 따라 압력코어 시료를 순간 감압하여 액체 질소에 보관하였다가 압밀시험, 삼축 압축 시험 등 물성 시험이 수행되었으며 수행 동안 X-ray 단면, 비저항, 음파 속도 등의 물성측정이 이루어졌다. 또한 액체 질소 보관 시료를 이용하여 감압법, 열염수 주입법, 열자극 법 등을 적용하여 생산 실험을 수행하기도 하였다. 이후에 압력코어 시료 절단 및 이동 시스템이 개발됨에 따라 보다 다양하고 많은 연구자 들이 압력코어 시료를 이용할 수 있게 되었으며 물성 연구뿐만 아니라 미생물 연구에 까지 압력코어 시료가 사용되게 되었다. 최근에는 절단 시료를 이용한 생산 실험 연구 또한 진행되었다.

• Journal of the Korean Institute of Gas
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• v.15 no.6
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• pp.38-43
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• 2011

Natural gas liquefaction process runs under cryogenic condition, and it spends large amount of energy. Minimizing energy consumption of natural gas liquefaction process is an important issue because of its physical characteristics. Among many kinds of natural gas liquefaction processes, C3-MR(Propane Pre-cooled Mixed Refrigerant) process uses two kind of refrigerants. One is the propane as the pure refrigerant(PR) and the other is the mixed refrigerant(MR). In this study, to find the optimal compressing level, propane cycle is simulated on different pressure level. The case study result shows relationship between energy consumption and pressure level. As a result, the conclusion is that at a higher pressure level, process consumes lower energy. At 5 pressure-levels, energy consumption is 23.7% lower than 3 pressure-levels.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.36 no.1
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• pp.43-50
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• 2012

The effects of parameters related to the finite element simulation of the laser shock peening(LSP) process on the residual stresses of Inconel alloy 600 steel are discussed. In particular, we focus on the maximum pressure, pressure pulse duration, laser spot size, and number of shots. It is found that certain ranges of the maximum pressure and pulse duration can produce the maximum compressive residual stresses near the surface, and thus proper choices of these parameters are important. The residual stresses are not affected by the laser spot size, provided it is larger than a certain size. The magnitudes of the compressive residual stresses and the plastically affected depths are found to increase with an increasing number of shots, but this effect is less pronounced for more shots.

• Aerospace Engineering and Technology
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• v.4 no.1
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• pp.18-24
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• 2005

Wet compression means the injection of water droplets into the compressor of gas turbines. This method decreases the compression work and increases the turbine output by decreasing the compressor exit temperature through the evaporation of water droplets inside the compressor. This paper provides thermodynamic and aerodynamic analysis on wet compression in a centrifugal compressor for a microturbine. The meanline performance analysis of centrifugal compressor is coupled with the thermodynamic equation of wet compression to get the meanline performance of wet compression. The most influencing parameter in the analysis is the evaporative rate of water droplets. It is found that the impeller exit flow temperature and compression work decreases as the evaporative rate increases. And the exit flow angle decreases as the evaporative rate increases.