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심규철(Shim Kyu-Cheoul) 한국산업경영시스템학회 2004 한국산업경영시스템학회 학술대회 Vol.2004 No.추계
The Sustainable Water Resources Research Center (SWRRC) was established to manage water resources in an integrated manner and has been supported as a part of the 21st Frontier Research and Development Program by the Ministry of Science and Technology (MOST) and Ministry of Construction and Transportation since August 2001. The mission of the SWRRC is to cope with future water shortage problems through development and implementation of technologies of integrated water resources management. This mission ultimately aims at improving of living standards of human being, which is one of the major goals of the 21st Frontier Research and Development Program. The project is conducted by three phases. Duringthe first phase (2001. 8 ~ 2004. 6), the majority of funding is used for development of core and supporting technologies. In the second phase (2004. 7 ~ 2007. 6), with the core and supporting technologies financed continuously, the fund will be usedon different parts of studies in terms of sectors, subjects and integrated researches, and the rest of the fund (50%) will go toward implementation combined with business in the form of providing technologies. In the final phase (2007. 7 ~ 2011. 6), 30% of the fund will be used to integrate developed systems and 70% will be spent on implementation for selected areas to which newly developed technologies will be applied. Project Management System for Water resources R&D is cost-effective and well fitted system by resolving many kind of problems facing such a large research and development program considering limited manager.
김학선,이승수,남광현,김용달,홍창문,심규철,김응철,Kim. Hak-Sun,Lee. Sung-Su,Nam. Kwang-Hyun,Kim. Yong-Dal,Hong. Chang-Moon,Shim. Kyu-Cheoul,Kim. Eung-Chul 한국방재학회 2007 한국방재학회 학술발표대회논문집 Vol.2007 No.1
Damages induced typhoons have been increased and super-typhoons have occurred frequently. In our study, we propose a storm risk assessment technique based on CFD for the industrial structures and equipment located in the coastal regions. Inflow wind speeds are obtained through the information of geography and meteorology in considering regions before pressures of wind-environment and structures corresponding to different winds are calculated with wind speed multiplier and pressure coefficient. The results are applicable to evaluate a warning wind speed or regions vulnerable to debris in a considering region and to examine the safety of structures and their exteriors.