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김정만,안정모,김원술,김정일,신해림,정갑열,김준연 동아대학교 산업의학연구소 2000 산업의학연구소 논총 Vol.- No.5
Blood Lead, Manganese, Aluminium and Silicon Concentrations in Korean Adults Jung Man Kim, Jung Mo Ahn, Won Sul Kim1), Jung Il Kim2), Hai Rim Shin, Kap Yeol Jung2), Joon Youn Kim Department of Preventive Medicine, College of Medicine and Industrial Medicine Research Institute. Dong-A University Department of Health Care, Handong University Sunlin Presbyterian Hotpital1) Department of Occupational Medicine, College of Medicine, Dong-A University2) 0bjectives : This study was performed to determine the reference values of blood lead, manganese, aluminium, and silicon in healthy adults. Methods : The subjects were 132 (67 male and 65 female), and classified to three age groups (≤39,40∼49, and 50≤). Hood lead, manganese and aluminium were analyzed by atomic absorption spectrophotometer, and blood silicon was analyzed by direct current plasma optical omission spectrometer. Results : Blood lead levels(geometric mean, S.D) were (3.49, 1.70) ㎍/dL in male auld (3.04, 1.65) ㎍/dL in female, but the difference is not significant, and there was no significant difference between age groups. Mean blood manganese level was 0.99±0.41㎍/dL, and there was no significant difference between sex or age groups. Mean blood aluminium level was 0.59±0.35㎍/dL and there was no significant difference between sex or age groups. Mean blood silicon level was 54.41±27.64㎍/dL in male and 43.34±23.51㎍/dL in female, and the level in male was significantly higher than that in female (p〈0.05). There was significant difference between age groups, and the oldest showed the highest level in male (p〈0.05), but no significant difference between age groups in female. Conclusions : Authors hope that this study would provide basic data for determininig reference values and evaluating health effects.
쌍발 복합재 비행기의 속도, 고도 보정 및 상승성능에 관한 연구
황명신,박윤진,이정모,김칠영,은희봉 한국항공운항학회 1997 한국항공운항학회지 Vol.5 No.1
Airspeed and altimeter calibration of "win Mee was conducted by the flight test. We have adopted system to system method. Flight test data is corrected for instrumented error and position error, and the resultin data was satisfied. Climb Performance flight test also was conducted. But we could not have all data because of limited flight time. The resulted data was satisfied compare with calculated dab.
모정윤(Jung Youn Mo),김민지(Min Ji Kim) 한국산학기술학회 2020 한국산학기술학회논문지 Vol.21 No.5
최근 정부정책에 따른 원자력 발전의 감축과 신재생에너지의 급속한 보급확대에 따라 국내 태양광 발전 설치가 급격히 확대되고 있다. 이러한 태양광 발전 설비의 급속한 증가는 필연적으로 신재생에너지 산업에서의 폐기물 증가로 이어진다. 그러나 현재 신재생에너지 분야에서 발생한 폐기물에 대한 국내 사후 관리 시스템 구축에 대한 정책 논의는 미비하다. 동 연구는 태양광 패널 재활용 산업의 비용 및 편익을 추정하고 한국의 태양광 폐기물 재활용 정책에 대한 시사점을 도출하고자 한다. 동 연구의 결과에 따르면, 태양광 패널 재활용 사업의 실행 기간이 10년일 경우, 재활용 프로젝트의 수익성이 매우 낮다는 결론이 도출된다. 반면 재활용 프로젝트의 기간이 20년으로 연장될 경우, 2030년 이후 국내 태양광 폐기물의 총 용량이 크게 증가하여 규모의 경제로 인해 프로젝트의 경제 효율성이 충분히 높아질 수 있다는 결론을 도출하였다. 태양광 패널 재활용 사업의 경우 단기적으로는 경제적 효율성이 매우 낮기 때문에 민간 기업의 자발적 사업 참여를 기대하기 어렵다. 따라서 재활용 사업의 경제성 향상 및 관련 산업 활성화를 위한 다양한 정부의 정책마련이 긴요하다. 이를 위해서는 i) 폐태양광 패널의 재활용을 위한 법률 제정, ii) 태양광 패널 폐기물 모니터링 및 비용관리를 위한 협회 지정, iii) 태양광 패널 재활용 관련 R & D 수립 및 재활용과 관련된 다양한 비즈니스 모델 개발 등의 정책 마련이 필요하다. In accordance with the government"s expansion of solar power generation, the installation of solar panels is expected to expand in Korea. On the other hand, policy discussions on the establishment of a domestic post-management system for waste from photovoltaic power are insufficient. This study estimated the benefit-cost of solar PV Panel recycling and derived the implications for the photovoltaic waste policies in Korea. Overall, the profitability of the recycling project is very low when the project execution period is 10 years. On the other hand, the economic efficiency of the project can be sufficiently high when the duration of the solar panel recycling project is extended to 20 years. In the short term, it is challenging to expect voluntary companies to enter this recycling business because of low economic efficiency. Therefore, it is necessary to prepare various policies to improve the economic efficiency of the recycling business. In conclusion, the following policy implications for PV panel recycling activation are proposed: i) legislation for the recycling of waste solar photovoltaic panel, ii) designation of Association for Solar Panel waste monitoring, and iii) expansion of R & D and the development of various business models related to solar recycling.