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건축인허가의 처리기간 단축을 위한 건축조례의 역할재정립방안 연구
박근수(Park Geun-Soo),황은경(Hwang Eun-Gyung) 대한건축학회 2009 대한건축학회 학술발표대회 논문집 - 계획계/구조계 Vol.29 No.1(계획계)
The goal of this study was to suggest the restructing scheme of rule of the building sub regulations as a systematic factor was need to be improved for the sake of carrying out the admitting & permiting process(administration process) smoothly in build administration which had affected on the economic action & daily life of nations. In order to accomplish this goal, we did the opinion survey & documentary investment. In the case of opinion survey, we meet the building design of current site and administration clerk. As the conclusion of this study, we suggested three methods as a emforcing scheme of rule by the step as following; first step is restruction of environment, second step is construction of environment to activate, and third step is restruction of building sub-regulation toward the each local government.
체외순환시 호기말 이산화탄소분압과 동맥혈 이산화탄소분압의 비교
변진관,신치만,황은경,박주열 대한마취과학회 1990 Korean Journal of Anesthesiology Vol.23 No.3
The changes in arterial carbon dioxide tension (PaCO₂) during cardiopulmonary bypass reflect changes of temperature and gas flow through an oxygenator. The changes in PaCO₂ can be reduced through the frequent analysis of arterial blood gases and subsequent adjustment of total gas flow and CO₂ concentration in the gas flow or both. Utilizing a capnometer (CAPNOMAC AGM-103. Datex), we compared end-tidal carbon dioxide tension (PetCO₂) from the capnometer with temperature corrected PaCO₂ during cardiopulmonary bypass. One end of the sampling port of the capnometer was incorporated into the prime port of the arterial reservoir in a bubbling type oxygenator (William-Harvey). When arterial reservoir temperatures of the oxygenator were 30。C and 35。C, PetCO₂ from the capnometer was recorded and two arterial blood gas samplings were done at the same temperatures. The results were as follows: 1) The difference of P_(et)CO₂ and temperature corrected PaCO₂ was below 3 mmHg in all cases. 2) The relationship between P_(et)CO₂ temperature corrected PaCO₂ was significantly linear. The results show that continuous monitoring of P_(et)CO₂, using a capnometer is useful to control the changes in PaCO₂ during cardiopulmonary bypass.