RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

The characteristics of natural disasters have become increasingly more difficult to predict due to the influence of climate change. In addition, the multi-environment zones (i.e., with various geographical risk factors) have very high potential disaster risks. Multiple debris flow disasters between mountainous areas and coastal, urban areas have occurred simultaneously with flooding disasters caused by heavy, torrential rainfall due to the changing global climate and environment. Preventing the occurrence of disasters with structural and non-structural measures is the most basic approach to disaster prevention. However, in order to mitigate these disasters more effectively, it is necessary to investigate what causes damage and establish a disaster prevention countermeasure according to the integrated system for a several disasters. Therefore, the aims of this study are to estimate the characteristic of debris flow at the fan area, and to establish an integrated plan for preventing disasters by develop an applicable debris flow model for an actual basin. To validate the developed 2-D numerical model, the results of hydraulic model test are compared with the results of the numerical calculation. The parameters of total flow and sediment discharges, sediment concentration, flow pattern, and travel length are measured in hydraulic experiment and used to validate the numerical model. As a result, the simulated results are in good agreement with the experimental results.

목차 (Table of Contents)

1. 서 론
2. 토석류 모델
3. 수치모델의 검증
4. 토석류 모델의 결과
5. 결 론

1. 서 론
2. 토석류 모델
3. 수치모델의 검증
4. 토석류 모델의 결과
5. 결 론

참고문헌 (Reference)

1 김명규, "颱風波浪潮汐을 苦慮한 沿岸地域의 浸水解釋" 인제대학교 대학원 2012

2 Okuda, S., "Synthetic observation on debris flow, Part 3. Observation at valley Kamikamihorizawa of Mt. Yakedake in 1976" Annuals of the Disaster Prevention Research Institute, Kyoto University 277-296, 1977

3 Kim, Y.J., "Study on hydraulic characteristics of debris flow breakers and sabo dam with a flap" Kyoto University 2013

4 Aasida, A., "Study on debris flow control, hydraulic function of grid type open dam" Kyoto University 443-441, 1980

5 Nakagawa, H., "Numerical simulation of sediment disaster caused by heavy rainfall in Camuri Grande basin, Venezuela 1999" 671-682, 2003

6 Takahashi, T., "Monograph series of IAHR" Balkema 1-165, 1991

7 허동수, "LES-WASS-3D를 이용한 연안에서의 침수시뮬레이션" 한국해양공학회 22 (22): 34-39, 2008

8 Bagnold, R. A., "Experiments on a gravity free dispersion of large solid spheres in a newtonian fluid under shear" 225 : 49-63, 1954

9 Kim, Y. J., "Estimation of a debris flow hydrograph for analysis of evacuation planning" KWRS 237-241, 2014

10 Egashira, S., "Constitutive equations of debris flow and their applicability" 1997