원문정보
Preparation to infective CBRN Terrorism due to Covid-19 Pandemic
초록
영어
Recently, International Organizations including World Economic Forum and ICAO warn that possibility of a outbreak of terrorism in a way of Chemical, Biological, Radiological, Nuclear as Weapons of Mass Destruction in the result of the global threat assessment analysis. Due to the learning effect of COVID-19 pandemic such as spreading virus extensively, high fatality rate, economic ripple effect, social turmoil et cet around the globe, the way of terrorism could change to CBRN which is easy to acquirement of the material or agent and huge damaging effect to human with just a small amount. Between 1970 and 2016 there were a total of 348 chemical, 13 radiological and 36 biological attacks such as Anthrax Spores, Novichok Nerve Agents, Sarin Gas, VX Nerve Gas, Ricin Toxin in USA, England, Japan, Malaysia and France and Germany respectively. To response to the potential threat, Republic of Korea have to prepare, review and carry out national and airport contingency plan in terms of full-time CBRN exercise, prepare the dedicated HVAC facilities and train the airport staff to recognize and report coule-be infective CBRN terrorism.
목차
Ⅰ. 서론
1. 대량살상무기(WMD)로서의 생화학테러
Ⅱ. 국제 생화학 테러 동향
1. 주요 생화학 테러 사건
Ⅲ. 가장 치명적인 생물 무기(Biological Weapon)
1. 페스트 균(YERSINIA PESTIS; PLAGUE)
2. 탄저균(BACILLUS ANTHRACIS; ANTHRAX)
3. 리신(RICINUS COMMUNIS; RICIN)
4. 보툴리눔 독소(BOTULINUM TOXIN)
5. 천연두(VARIOLA MAJOR; SMALLPOX)
Ⅳ. 탄저균의 특징
1. 탄저균의 발병 원인
2. 탄저균의 증상
3. 탄저균의 전염 여부
4. 탄저균의 누출 영향
5. 탄저균 노출의 감염 효과
6. 탄저균의 치료 가능성
7. 탄저균의 치료제(Vaccine 존재 여부)
8. 탄저균 제조의 용이성
9. “무기 등급”으로서의 탄저균
Ⅴ. 화생방 테러 대응요원의 교육과 훈련
1. 이론 교육(Theoretical Education)
2. 현장 실습 훈련(Field Training)
Ⅵ. 효과적인 대응을 위한 공항의 대응 조치
1. 생화학 테러의 특징 및 대응 방법
Ⅶ. 결론 및 제언
1. 인천공항의 생화학 테러 대비 현황
2. 인천공항의 생화학테러 대응 매뉴얼
참고문헌