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Fire Sci. Eng. > Volume 30(4); 2016 > Article
Fire Science and Engineering 2016;30(4):94-102.
DOI: https://doi.org/10.7731/KIFSE.2016.30.4.094    Published online August 31, 2016.
물이 채워진 소화 배관의 전파 차폐도 해석
김윤증
서울시립대학교 재난과학과
Analysis on Shielding Effectiveness of Electromagnetic Wave in Fire Pipes
Kim Yoon-Jeung
Dept. of Disaster Science, University of Seoul
요약
EMP 방호용 차폐 시설을 구축 할 때 소화 배관들의 방호 처리를 위하여 WBC 효과를 이용하며, 차폐도를 높이기 위해서 소화 배관 내부에 허니컴을 삽입한다. 이때 허니컴 단위 셀의 크기가 작으면 물의 흐름에 지장을 주며, 침전물에 의하여 소화 배관이 막히게 된다. 이것을 방지하기 위하여, 물의 분극손실에 의한 차폐도를 이용해서, 허니컴 셀의 크기는 키우고, 두께는 얇게 하면서도 요구하는 차폐도를 얻을 수 있는 설계 방법을 제시하였다.
Abstract
When establishing shielding facilities for EMP protection, WBC effect is used to protect fire pipes and honeycomb cells are inserted into the fire pipes to improve the shielding effectiveness. At this point, the smaller unit cell of honeycombs becomes, the more likely it interrupts the flow of water, which ends up clogging the fire pipes with sediment. To prevent this phenomenon, I would suggest a design method due to the pilarization loss of water molecules that contributes to increasing the size of honeycomb cells and remaining thin-walled sufficient for required shielding effectiveness.
Key Words: Electromagnetic pulse (EMP), Waveguide below cutoff (WBC), Honeycomb, Polarization of water, Loss tangent


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