대공간구조에서 접합부의 신뢰도는 매우 중요하다. 접합부에 사용되는 고력볼트의 나사부 유효단면적은 축부단면적보다 작고 볼트 축부에 락핀용 구멍이 있기 때문에 볼트 나사부 또는 락핀용 구멍에 응력집중 현상이 발생하여 취성 파단이 발생할 우려가 높다. 특히 접합부는 직렬형 구조로 이루어져 있다. 따라서 접합부에서의 극한상황시 파괴유형은 필히 취성파괴를 피해야 하며 연성파손으로 유도해야 한다. 따라서 본 연구에서는 볼 조인트 접합부의 소성변형능력을 향상시키고 현장에서 발생할 수 있는 시공오차의 흡수가 가능하도록, 볼트의 나사부나 핀부의 취성파단 없이 소성변형능력 향상을 목표로 하였다. 에너지흡수형 볼트를 사용함으로써 소성변형능력이 향상된 스페이스 프레임의 접합상세를 제안하였다.
비대칭 및 대칭 변단면 압축재( = m)의 임계하중을 수치 해석법의 하나인 유한 요소법으로 결정하였다. 해석에서 고려한 변수는 taper parameter(=a) 와 단면 성능 변수 m이다. 구조설계 및 구조의 안전 검토에 임하는 구조 기술자들의 편의를 위하여 유한요소법으로 결정한 임계하중의 계수 변화는 하나의 대수식으로 표시하였다. 대수식에 나타나는 계수들은 회귀분석법으로 결정하였다.
The Ministry of the Interior and safety provides detailed guidelines for the establishment of a national infrastructure protection plan for each management agency in order to maintain a minimum functional continuity of the national infrastructure. However, in the case of the Guidelines for National Infrastructure Protection Plan, the proposed standards are based on common issues for the protection of the national infrastructure system and fail to provide the correct guidelines reflecting the characteristics of each sector. In addition, since the risk assessment procedures such as risk and impact analysis are conceptually presented, evaluation based on the characteristics of the facilities is insufficient, and in some agencies, it is performed perfunctorily. Therefore, the present study analyzes the present state of the National Infrastructure Protection Plans and draws common problems, and suggests ways to improve the vulnerable parts in the Guidelines for National Infrastructure Protection Plan through the case studies of advanced foreign countries.
A national infrastructure is a physical and human system that can have a significant impact on life, property, and the national economy if its function is paralyzed. It is also used for energy, telecommunications, transportation, finance, healthcare, nuclear energy, environment, important government facilities, etc. In this paper, we present a disaster risk assessment method and alternative method considering the regional characteristics of the national infrastructure through the evaluation of disaster risk.
Domestic agricultural reservoir dam facilities are difficult to manage water resources because of the in summer rainfall increase due to aging and climate change, it is expected that the dam risk will be large due to the overflow. In this study, author selected study basin in order to evaluate hydrological safety of agricultural reservoir dam facilities. And calculated the probable rainfall, Present PMP, Future PMP considering climate change. Also, author carried quantitative analysis out for increasing rainfall due to climate change, analyze freeboard assessment of agricultural reservoir by calculate flood discharge, reservoir flood routing according to rainfall scenarios. As a result of evaluate hydrological safety of agricultural reservoir dam facilities using Future PMP considering climate change, Gosam, Kumkwang, Miho, Cheongcheon reservoir had the Highest Water Level over the design flood level, it is analyzed that it would be vulnerable to overflow risk.
Recently, the importance of facility maintenance has been increasing due to the problems caused by the occurrence of new types of disasters and the deterioration of facilities. However, it is difficult to maintain consistent facilities because the related laws are dispersed depending on the size and purpose of facilities. In addition, when a collapse occurs, there is difficulty in response activity. This paper analyzes the problems in the maintenance of facilities in accordance with the deterioration of facilities and draws out the Mediumand long-term development plans of facility maintenance field
The Guidelines for National Infrastructure Protection Plan, the proposed standards are based on common issues for the protection of the national infrastructure system and fail to provide the correct guidelines reflecting the characteristics of each sector. In addition, since the risk assessment procedures such as risk and impact analysis are conceptually presented, evaluation based on the characteristics of the facilities is insufficient, and in some agencies, it is performed perfunctorily. Therefore, this study analyzes the present state of the National Infrastructure Protection Plans and draws common problems, and suggests ways to improve the vulnerable parts in the Guidelines for National Infrastructure Protection Plan through the case studies of advanced foreign countries.
This study had the purpose to prepare a well-organized strategy to unify facility safety management system by analyzing the problems of present system for facilities subject to particular management, and identifying obstacle elements by "Special Act on the Safety Control of Public Structures". To that end, the study was conducted as follows: First through identification of the status of domestic facility safety management system and analysis of facility management system in advanced foreign countries, logic for unification of domestic facility safety management system was proposed. Second the problems of the safety management system for facilities subject to particular management, and considerations for unification were analyzed. Third, strategy for unification of facility safety management system including safety management subject and checking period etc was proposed.
This study is aimed repair facility designated as a reservoir large complex disasters, including climate change from a rural corporation to manage and repair facilities in a systematic and efficient integration of risk management technology to protect you wish to advancement.
대형복합재난은 자연재난과 사회재난이 연쇄적 또는 동시다발적으로 발생함에 따라 예측 가능한 범위 밖의 거대한 규모로 전개되 는 재난을 의미한다. 대형복합재난은 재난의 동시성과 연쇄성으로 전혀 새로운 형태로 변화되어 기존의 재난관리방식과 다른 새로운 관리방 식이 필요하게 된다. 이에 본 연구는 대형복합재난을 대상으로 선진외국의 복합재난대응체계를 검토하여 국내 복합재난 대응체계에 필요한 정책적 개선방향을 제시하였다.
This study had the purpose to prepare a well-organized strategy to unify facility safety management system by analyzing the problems of present system for facilities subject to particular management, and identifying obstacle elements by "Special Act on the Safety Control of Public Structures". To that end, the study was conducted as follows: First through identification of the status of domestic facility safety management system and analysis of facility management system in advanced foreign countries, logic for unification of domestic facility safety management system was proposed. Second the problems of the safety management system for facilities subject to particular management, and considerations for unification were analyzed. Third, strategy for unification of facility safety management system including safety management subject and checking period etc was proposed.
Since there is no computer system for general management of dangerous and disaster prone facilities that handle dangerous substances and data for disaster prevention facilities in Industrial Complex of Korea, much manpower and time are required to discover risk factors and identify spreading of dangerous. This paper proposes an disaster prevention platform system based on sensor, scenarios for disaster response, collective Intelligence for detection of chemical disaster signs and effective initial response to disasters on Yeosu Industrial Complex.
This study analyzes the existing case studies on the harmful chemical accident response system and analyzes the factors for decision - making and decision - making in the hazardous chemical accident site. Based on the conceptual model of collective intelligence as a new decision - making method, we will build a decision - making model based on collective intelligence that can be applied in the hazardous chemical accident site. The collective intelligence model proposed in this study is designed around hazardous chemical accidents, and it is necessary to conduct empirical studies through the composition of more specific expert groups.
This study is the result of questionnaire about disaster and safety. Survey results showed that residents' satisfaction with disaster and safety was low. And satisfaction of public officials was high. Therefore, there is a difference in perception between residents and civil servants.
This study had the purpose to prepare a well-organized strategy to unify facility safety management system by analyzing the problems of present system for facilities subject to particular management, and identifying obstacle elements by "Special Act on the Safety Control of Public Structures". To that end, the study was conducted as follows: First through identification of the status of domestic facility safety management system and analysis of facility management system in advanced foreign countries, logic for unification of domestic facility safety management system was proposed. Second the problems of the safety management system for facilities subject to particular management, and considerations for unification were analyzed. Third, strategy for unification of facility safety management system including safety management subject and checking period etc was proposed.
Since there is no computer system for general management of dangerous and disaster prone facilities that handle dangerous substances and data for disaster prevention facilities in Industrial Complex of Korea, much manpower and time are required to discover risk factors and identify spreading of dangerous. This paper proposes an disaster prevention platform system based on sensor, scenarios for disaster response, collective Intelligence for detection of chemical disaster signs and effective initial response to disasters on Yeosu Industrial Complex.
본 연구에서는 국내에서 발생한 유해화학물질사고 사례조사와 재난상황 발생시 소셜미디어를 활용한 사례를 분석하여 소셜 방재 생태계 구축을 위한 방안을 도출 하였다. 전국 산업단지의 화학물질 및 화학 제품 제조업체수는 7,341개 업체이며, 전국 산업단지에서 소기업이 차지하는 비율은 93%에 이르고 있어 예상치 못한 곳에서, 예고 없이 화학사고가 발생하는 불확실성을 가지고 있다. 2012년 9월27일(목) 구미4공단 내 근로자 수 7명의 소기업인 (주)휴브글로벌에서 발생한 불산 누출사고는 사망 5명, 부상 18명, 건강검진 12,243건, 임시거주 340명 등 인적 피해가 발생하였다. 이러한 유해화학물질 누출 사고는 현장뿐만 아니라 사고 주변으로 화학물질이 확산될 수 있는 위험성을 가지고 있다. 최근 ICT 무선통신기술이 발달되어 소셜미디어 활용이 증대하고 있으며, 일본 쓰나미, 보스턴 폭탄테러와 같은 재난 발생 시 피해자와 가족과의 안부 확인 수단, 재난상황 파악을 위한 중요한 정보 포탈의 역할과 기부의 창구로써 다양한 역할을 행하였다. 따라서 유출시 인적·물적·사회적으로 큰 영향을 미치는 유해화학물질 사고에 대하여 ICT 무선통신기술 기반의 소셜미디어를 활용하여 산업단지와 근접지역의 사람, 사물을 비롯한 모든 구성요소들이 소통할 수 있는 소셜 방재 생태계 구축이 필요하다.
최근에는 미국에서 “911 테러 음모(2011)”, “중국에서 SARS(2003)”, ”달리안에서 기름 수송관 폭발(2010)“과 ”캐나다와 한국에서의 정전(2004, 2011)“과 같은 많은 복합적인 재난들이 일어나고 있다. 이에 따라 사람들은 Risk는 어떻게 개념적으로 정의되며, 현재와 미래에 우리에게 어떠한 특정영향을 주게 되는지, Risk management의 목적인 risk를 최소화하는 방법에 대한 관심이 커지게 되었다. 하지만 지금까지 Contingency-, Business Continuity-, Crisis -, Recovery-와 Emgerency Management 용어들이 비슷한 어원을 가지기는 하지만, 같은 어원을 가지지 않음에도 불구하고 종종 상호교환적으로 동의어처럼 사용되고있고 리스크메니지먼트에 관한 어떤 표준화된 국제적 정의도 없는 실정이다. 따라서 본 연구에서는 Risk를 발견·분석하고 그 영향을 완화 시켜 최소화 시킬 수 있는 Risk Management과정과 사례를 통하여 risk management의 중요성을 설명하고 riskmanagement에 사용되는 용어의 어원과 개념설명을 통하여 risk management의 이해를 돕고자 한다.