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여름철 이중외피 중공층 내부의 기류 속도변화에 따른 온도분포 특성
조수(Soo Cho),심경종(Kyung-Jong Sim),성욱주(Uk-Joo Sung),박정환(Jeong-Hwan Park),임상훈(Sang-Hun Lim) 한국생활환경학회 2011 한국생활환경학회지 Vol.18 No.1
The study was intended to analyze the temperature distribution inside the double-skin system in summertime and to that end, measuring the temperature inside the facade double-skin system and simulation were conducted. Included in the temperature measurement were surface temperature of exterior window, air temperature inside the cavity of double-skin system, temperature of building window and the temperature of exterior skin of the building. Using the temperature and air velocity measured at the end as the parameter, simulation of temperature distribution inside the double-skin was carried out, which proved that the faster the velocity of air flow at the end of double-skin the lower the temperature distribution inside the double-skin.
댐의 심층저온수 취수시 수온 성층화 유지 조건에 대한 CFD를 이용한 분석
이진성(Lee Jin-Sung),조수(Cho Soo),심경종(Sim Kyung-Jong),장문성(Jang Moon-Soung),손장열(Sohn Jang-Yeul) 한국태양에너지학회 2009 한국태양에너지학회 논문집 Vol.29 No.2
This study was conducted to forecast inner water temperature strata change by extracting deep water from a dam. For the methodology, the scope wherein the balance between the volume of low-temperature water intake through the virtual water intake opening as installed within the stored water area and the volume of water intake from the surrounding area is not destroyed was calculated through the CFD simulation technique using the computational fluid dynamics(CFD) interpretation method. This study suggested a supplementary method (diffuser) to avoid destroying the water temperature strata, and the effect was reviewed. In case of intake of the same volume, when the velocity of flow of water intake is reduced by increasing the pipe diameter, the destruction of water temperature strata can be minimized. When the area (height) where the intake of water is possible is low, a diffuser for interrupting the vertical direction inflow should be installed to secure favorable water intake conditions in case of water intake on the upper part. This study showed that there was no problem if the intake-enabled, low-temperature area was seemed approximately 10m from the bottom when the scope that does not destroy the water temperature strata in case of water intake was forecast using the regression formula.
이수열(Su-Yul Lee),김우승(Woo-Seung Kim),조수(Soo Cho),성욱주(Uk-Joo Sung),박희문(Hee Mun Park),심경종(kyung-Jong Sim) 대한설비공학회 2009 대한설비공학회 학술발표대회논문집 Vol.2009 No.-
This study is intended to identify how quick disconnect coupling which connects with refrigerant piping of air-conditioner using R-22 refrigerant has effect on characteristics of flux. in the case where the air-conditioner installs utilizes quick disconnect coupling, COP has an effect on the quantity of cooling load because of changing flow rate and physical properties of refrigerant which flow into an entrance of expansion valve from coupling. Variation of flow rate can be regulated by changing expansion-contraction angle; α of an entrance and an exit of coupling. In this study, quick disconnect coupling is presented flow of coupling by using FLUENT as heat flow program. To have an effect on the expansion entrance valve, and by changing expansion-contraction angle; α of an entrance and an exit
급속분리커플링으로 연결된 에어컨의 운전성능에 관한 실험적 연구
조수(Soo Cho),이수열(Su-Yul Lee),성욱주(Uk-Joo Sung),박희문(Hee Mun Park),심경종(kyung-Jong Sim),김우승(Woo-Seung Kim) 대한설비공학회 2008 대한설비공학회 학술발표대회논문집 Vol.2008 No.2
This study analyzed operation characteristics of air-condition piping is made by quick disconnect coupling. Air-conditioning consists of central compressor 3HP capacity and R22 refrigerant. We experimented with two operation cycles of air-condition under the same environment; one is with quick disconnect coupling. The other is without quick disconnect coupling. As a result, we can observe whether the condensation temperature of former increased by about 3-5. Furthermore, COP decreased by about 10%.