• 한국수소및신에너지학회논문집
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• 제20권3호
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• pp.179-187
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• 2009

This paper presents a static and dynamic characteristics of the relief valve which is a kind of direct operated pressure control valve for hydrogen compressor. The valve is consisted of a main poppet, a spring, an adjuster and a valve body. The purpose of this study is development of the simulation model for relief valve by using commercial AMESlM$^{(R)}$ tool. Poppet with sharp edge seat type and ball poppet with sharp edge seat type compare for P-Q characteristic. The dynamic simulation results are presented the operating pressure characteristics of relief valve. High pressure power unit of which maximum pressure control range is 100MPa was manufactured, and the pressure control valve was experimented using the above-mentioned power unit. The new model of pressure control valve from this results was suggested. It was confirmed that the suggested valve has a good control performance from experimental setup.

• 한국생산제조학회지
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• 제19권6호
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• pp.883-888
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• 2010

This study have goal with conceptual design for Offshore Structures of high pressure control valve for localization. Ball valve for development accomplished with flow analysis based on provision of ANSI B16.34, ANSI B16.10, ANSI B16.25 In order to localize the Offshore Structures high pressure control valve. Numerical simulation using CFD (Computational Fluid Dynamic) in order to predict a mass flow rate and a flow coefficient form flow dynamic point of view. The working fluid assumed the glycerin (C3H8O3). The valve inlet and outlet setup a pressure boundary condition. The outlet pressure was fixed by atmospheric pressure and calculated until increasing 1bar to 10bar. CFD analysis used STAR-CCM+ which is commercial code and Governing equations were calculated by moving mesh which is rotated 90 degrees when ball valve operated opening and closing in 1 degree interval. The result shows change of mass flow rate according to opening and closing angle of valve, Flow decrease observed open valve that equal percentage flow paten which is general inclination of ball valve. Relation with flow and flow coefficient can not be proportional according to inlet pressure when compare with mass flow rate. Because flow coefficient have influence in flow and pressure difference. Namely, flow can be change even if it has same Cv value. The structural analysis used ANSYS which is a commercial code. Stress analysis result of internal pressure in valve showed lower than yield strength. This is expect to need more detail design and verification for stem and seat structure.

• 대한설비공학회:학술대회논문집
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• 대한설비공학회 2008년도 하계학술발표대회 논문집
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• pp.1195-1200
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• 2008

This study have goal with conceptual design for Offshore Structures of high pressure control valve for localization. Ball valve for development accomplished with flow analysis based on provision of ANSI B16.34, ANSI B16.10, ANSI B16.25 In order to localize the Offshore Structures high pressure control valve. Numerical simulation using CFD(Computational Fluid Dynamic) in order to predict a mass flow rate and a flow coefficient form flow dynamic point of view. The working fluid assumed the glycerin($C_3H_8O_3$). The valve inlet and outlet setup a pressure boundary condition. The outlet pressure was fixed by atmospheric pressure and calculated until increasing 1bar to 10bar. CFD analysis used STAR-CCM+ which is commercial code and Governing equations were calculated by moving mesh which is rotated 90 degrees when ball valve operated opening and closing in 1 degree interval. The result shows change of mass flow rate according to opening and closing angle of valve. Flow decrease observed open valve that equal percentage flow paten which is general inclination of ball valve. Relation with flow and flow coefficient can not be proportional according to inlet pressure when compare with mass flow rate. Because flow coefficient have influence in flow and pressure difference. Namely, flow can be change even if it has same Cv value. The structural analysis used ANSYS which is a commercial code. Stress analysis result of internal pressure in valve showed lower than yield strength. This is expect to need more detail design and verification for stem and seat structure.

• 한국식품영양학회지
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• 제29권5호
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• pp.670-676
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• 2016

서기 530년부터 1950년까지의 고조리서 32권에 수록된 장 만드는 방법 중 메주 만드는 방법을 언급한 225가지 중 재료의 가열방법, 메주의 형태, 메주를 띄우는데 사용하는 용기, 덮개 및 깔개를 분석하였다. 그 결과 전통 메주의 콩이나 전분질의 가열 방법은 찌기 57가지, 삶기 58가지, 볶아 삶기 21가지, 밥짓기 2가지의 순으로 나타났다. 메주의 형태는 알 41가지, 구형 27가지, 덩어리 22가지, 칼자루형 8가지, 납작형 6가지, 쪼가리형 4가지, 구멍형 1가지, 사각형 1가지의 순으로 나타났다. 고추장 메주 72가지 중 콩 가열 방법은 삶기 9가지, 찌기 6가지의 순이었고, 전분질의 가열방법은 떡찌기 19가지, 밥 짓기 11가지, 익반죽 삶기 5가지의 순으로 나타났다. 콩메주 띄우는 용기는, 가마니 섬 섶 49가지, 독 5가지, 둥구미 멱서리 14가지, 온돌 11가지, 소쿠리 채반 광주리 7가지, 독 5가지, 흙도랑 4가지, 시루 오쟁이 3가지, 바가지 2가지, 시루 2가지, 용수 1가지의 순으로 나타났다. 메주 띄우기용 덮개나 깔개는 짚 36가지, 닥나무잎 17가지, 멍석 거적 자리 15가지, 쑥 14가지, 솔잎 11가지, 콩잎 10가지, 도꼬마리잎 6가지, 북나무잎 6가지, 보릿짚 6가지, 뽕잎 6가지, 가랑잎 5가지, 띠풀 5가지, 삿자리 4가지, 헝겊 3가지, 개오동나무잎 2가지, 갈잎 1가지의 순으로 나타났다. 매달기는 5가지 밖에 없었다.