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고주파 응용의료기기의 전자파장해․내성 가이드라인 개발 연구
최승선(S. S. Choi),이준식(J. S. Lee),황인호(I. H. Hwang),차지훈(J. H. Cha),허찬회(C. H. Hur),박기정 한국재활복지공학회 2010 재활복지공학회논문지 Vol.4 No.1
의료장비의 발달로 인해 병원에서의 영상진단, 고주파 수술기를 통한 위생적 치료, 고주파 온열기를 통한 암 치료 등 우리 생활에 가까운 곳에서 고주파를 이용한 의료기기들이 넓게 활용되고 있는 시점에 고주파를 이용한 응용기기들 간의 RF상호 간섭 문제에 대한 대책이 미흡한 실정이다. 『그러므로 향후기술개발과 고주파응용 의료기기의 산업발전에 문제가 될 수 있는 요인을 방지하기 위하여 고주파응용의료기기의 사용 현장에서 발생될 수 있는 상호 간섭 문제를 합리적이고 적합한 시험방법개발이 필요하다.』 본 논문에서는 고주파응용 의료기기에 대한 상호 간섭문제를 해결하기위해 전자파 평가를 위한 표준시험방법을 연구하였다. By the development of medical devices, high-frequency medical devices are becoming widely used. Imaging diagnosis in hospital and clean treatment by high-frequency medical devices and cancer treatment through high-frequency heaters around us, all serve as the examples. However, it still lacks the measures to the problems of the RF( Radio Frequency) mutual interference between the high-frequency devices. In order to prevent the problematic factors for technical and industrial development, a new reasonable and suitable test method is required. In this paper, we study a standard test method for EMC evaluation to solve the RF mutual interference.
비정상 자연대류에 의한 온도성층화의 동특성에 관한 연구
강보선,이준식,이택식,노승탁,Kang, B.S.,Lee, J.S.,Lee, T.S.,Ro, S.T. 대한설비공학회 1988 설비저널 Vol.17 No.4
Dynamic characteristics of thermally-forced stratification process in a square enclosure with a linear temperature profile at the side walls have been investigated through flow visualization experiment and numerical analysis. The experiment was performed on air with the Rayleigh numbers of order $10^5$. A particle tracer method is used for the flow visualization and to obtain a sudden linear temperature profile at the side walls copper blocks which already have a linear temperature profile are come into contact with the thin copper plates of the test section. Immediately a meridional circulation is developed and heat transfer takes place from the wall to the interior region by circulation of fluid and finally a thermal stratification is achieved. In the numerical study, QUICK scheme for convective terms, SIMPLE algorithm for pressure correction, and the implicit method for the time marching are adopted for the integration of conservation equations. Comparison of flow visualization and numerical results shows that the developing flow patterns are very similar in dynamic nature even though there is a time lag due to the inevitable time delay in setting up a linear temperature profile. For high Rayleigh numbers, the oscillatory motion is likely to take place and stratified region is extended. However, initial temperature adjustment process is much slower than that for low Rayleigh numbers.