• Journal of the Society of Disaster Information
• /
• v.17 no.3
• /
• pp.608-616
• /
• 2021

Purpose: Safety inspections by existing personnel have been limited in evaluation and data securing due to concerns about the safety of technicians or difficulty in accessing them, and are becoming a bigger problem as the number of maintenance targets increases due to the aging of facilities. As drone technology develops, it is possible to ensure the safety of personnel, secure visual data, and diagnose quickly, and use it is increasing as safety inspection of facilities by drones was introduced recently. In order to further enhance utilization, it is considered necessary to base a consideration standard for facility appearance investigation by drones, and in this paper, research was conducted on dams. Method: To calculate the quality, existing domestic safety inspection and drone-related consideration standards were investigated, and procedures related to safety inspection using drones were compared and analyzed to review work procedures and construction types. In addition, empirical data were collected through drone photography and elevation image production for the actual dam. Result: Work types for safety inspection of facilities using drones were derived, and empirical survey results were collected for two dams according to work types. The existing guidelines were applied for the adjustment ratios for each structural type and standard of the facility, and if a meteorological reference point survey was necessary, the unmanned aerial vehicle survey of the construction work standard was applied. Conclusion: The finer the GSD in appearance investigation using drones, the greater the number of photographs taken, and the concept of adjustment cost was applied as a correction to calculate the consideration standard. In addition, it was found that the problem of maximum GSD indicating limitations should be considered in order to maintain the safe distance.

• Proceedings of the Korea Water Resources Association Conference
• /
• 2011.05a
• /
• pp.417-417
• /
• 2011

댐에 의한 가장 큰 편익 중 하나는 홍수조절이다. 21세기 들어서면서 전세계적으로 지구온난화에 따른 기후변화로 빈번한 자연재해를 경험함에 따라 국민의 안전과 생명을 위한 업무로서 홍수방어의 중요성은 증대하고 있다. 기후변화에 따른 극단적인 홍수사상은 물관리의 중요성을 증대시키고 있다. 특히 여름철의 홍수를 적절히 방어해야 하는 우리나라의 경우, 물관리의 대표적인 수단으로서 댐 운영은 매우 중요하다. 댐이나 저수지는 홍수피해를 크게 경감시킬 수 있는 가장 효과적인 수단이다. 댐이 없을 경우, 홍수피해가 그대로 경제에 미치게 되지만 댐이 건설되어 있는 경우에는 댐에서 홍수량을 적절하게 조절하여 경제에 미치는 피해를 최소화하는 기능을 수행한다. 본 연구는 2006년 홍수시 충주댐의 홍수방어에 따른 사회경제적 파급효과를 추정하는 모형과 결과를 제시하였다.

• The Safety technology
• /
• no.47
• /
• pp.65-67
• /
• 2001

• Magazine of the Korean Society of Agricultural Engineers
• /
• v.63 no.3
• /
• pp.34-44
• /
• 2021

• Water for future
• /
• v.53 no.11
• /
• pp.97-102
• /
• 2020

• KSCE Journal of Civil and Environmental Engineering Research
• /
• v.34 no.6
• /
• pp.1919-1924
• /
• 2014

Recently, due to the climate change, the frequency and intensity of extreme rainfall events have been continuously increased in regions of South Korea. As a consequence, safety issues have been raised especially in the hydrologic safety of old dams designed and constructed by the old standards. In general, for improving hydrologic safety of existing dams, two options are considered: 1) raising dam crest; and 2) constructing or expanding an emergency spillway. In this process, the main criteria of alternative selection are overtopping possibility and cost efficiency of each alternative. This approach is easy to implement but it is subject to major limitation for the proper evaluation of alternatives, overlooking downstream flood damages by any controlled flow of water that is intentionally released from dams to eliminate the possibility of overtopping. Therefore, this study suggests a framework for evaluating the dam safety strengthening alternatives in terms of a comprehensive flood control by applying the concept of resilience. The case study shows that the resilience-based evaluation framework which considering downstream flood damages is effective in the selection of dam safety strengthening alternatives.

• Proceedings of the Korea Water Resources Association Conference
• /
• 2012.05a
• /
• pp.373-373
• /
• 2012

위험도(risk)는 복잡성(complexity)과 불확실성(uncertainty)라는 2가지 주요 특징으로 인해 위험도를 정확하게 예측하는 것은 불가능하다. 대표적인 수공구조물인 댐이 각종 모니터링을 통해서 안전하다고 판단된다 하더라도 하류지역에 도시가 존재한다면 여전히 잔존위험도(residual risk)는 존재한다. 댐의 파괴가 일반적으로 발생하는 사상은 아니지만 대규모 인명피해, 재산 및 환경피해로 이어지기 때문에 작은 위험도라 할지라도 이에 대한 감시 및 관리가 필수적이다. 댐 위험도 분석을 위해서 Event Tree 또는 Fault Tree가 일반적인 해석 방법으로 이용되고 있으나 잠재적인 파괴모드에 대한 복잡성과 불확실성을 고려하는데 한계가 존재한다. 본 연구에서는 이러한 문제점을 개선하기 위해서 Bayesian Network 기반의 위험도 해석기법을 제안하고자 한다. 특히 수문학적 위험도와 관련된 분석을 위해서 Bayesian Network의 구성 방안, 매개변수 추정, 위험도 해석 등 기존 해석 방법을 개선한 댐 위험도 해석 기법을 개발하고자 하며 개발된 방법론을 국내 실제댐에 적용하여 적합성을 평가하였다.

• Journal of the Korean GEO-environmental Society
• /
• v.11 no.9
• /
• pp.15-25
• /
• 2010

The main objective of this study was to offer informations about long-term seepage behavioral characteristics and to find a leakage safety management method for Juam Dam and Imha Dam, a central cored rockfill dams in Korea by the evaluating the automatically monitored leakage data. In the water leakage monitoring of fill dam, the generation of abnormal water leakage is difficult to directly detect due to the effect of outside factors such as the component of rainfall inherent in the observation value. Therefore, conventionally estimation methods of water leakage quantity were applied by multiple regression analysis considering reservoir water level, rainfall, etc.. However, the estimated error of rainfall component is relatively big in these method. This paper identifies the seepage characteristic of each dams which is not directly affected by rainfall through the hydrograph separation analysis and 3 dimensional analytical method, and thinks a leakage management method. It was noticed that two dams had site specific seepage behaviour features and were in stable state with the decreasing leakage quantity. It was also found that hydrograph separation method might be applicable to leakage safety management method.

• Proceedings of the Korea Water Resources Association Conference
• /
• 2022.05a
• /
• pp.120-120
• /
• 2022

우리나라 친환경 에너지 생산의 주요 축을 담당하고 있는 양수발전댐의 홍수 시 정교한 수계운영을 위한 방안으로 강우-유량-댐 수위 매트릭스(이하, PDH Matrix)를 개발하고 양수발전소상-하부댐 연계 운영에 따른 홍수 영향을 분석하였다. 연구 대상지역은 강원도 양양군 서면에 위치하고 있는 국내 최대 양수발전소인 양양양수 발전소로 총 저수용량 92만 m³의 콘크리트 중력식댐으로 유역면적은 약 125 km²이다. 양양양수 발전댐의 수계운영을 위한 PDH Matrix는 지속기간별 강수량 규모에 따른 홍수량 및 댐 최고수위 추정치를 판단할 수 있는 조견표로 강우규모 30 - 360 mm (30분 간격, 12개 강우규모) 및 지속기간 1-24시간 (1시간 간격, 24개 지속기간)인 총 288개의 강우조건별 홍수수문곡선을 개발하였다. 개발된 홍수수문곡선을 입력자료로 기존 댐 운영 방식인 AutoROM을 적용하여 저수지 홍수추적을 HEC-ResSim 모형으로 수행하고 최종적으로 개별 강우사상에 대한 강수량-유량-댐 수위 테이블을 작성하였다. 홍수기 댐 운영에 따른 최고수위는 초기 댐 수위조건에 따라 변동되므로 초기 댐 수위 조건(EL. 115 - 117 m, 1 m 간격)별 PDH Matrix를 각 각 개발하였다. 또한, 양수발전소의 특성상 상부댐으로 양수 또는 발전 방류에 따라 홍수 시 댐의 치수안전성에 미치는 영향이 크므로 상, 하부댐 운영에 따른 홍수영향 분석을 수행하였다. 구체적으로 하부댐에서 상부댐으로 양수 시 시간에 따른 하부댐 저수지의 수위변화 양상을 추정하였으며 극한적 홍수상황을 고려하기 위하여 상부 저수지가 만수인 상황에서 불가피하게 하부댐으로 방류가 필요한 상황에 대비한 홍수기 운영방안을 제안하였다. 본 연구는 하부댐-상부댐을 연계하여 운영하는 양수발전댐의 홍수기 수계 운영 방안을 수립한 첫 연구로 향후 연구에서 개발한 강우-유량-댐 수위 매트릭스(PDH Matrix) 작성 기법을 타 양수발전소 수계 운영 시 활용할 수 있을 것으로 기대된다.

• Journal of Korea Water Resources Association
• /
• v.39 no.5 s.166
• /
• pp.467-478
• /
• 2006

Water supply reliability for a dam is defined with a concept of probabilistic reliability. An evaluation procedure of the water supply reliability is shown with an analysis of long term firm yield reliability. The water supply reliabilities of Soyanggang Dam and Chungju Dam were evaluated. To evaluate the water supply reliability, forty one sets of monthly runoff series were generated by SAMS-2000. HEC-5 model was applied to the reservoir simulation to compute the firm yield from a monthly data of time series. The water supply reliability of the firm yield from the design runoff data of Soyanggang Dam is evaluated by 80.5 % for a planning period of 50 years. The water supply reliability of the firm yield from the historic runoff after the dam construction is evaluated by 53.7 %. The firm yield from the design runoff is 1.491 billion $m^3$/yr and the firm yield from the historic runoff is 1.585 billion $m^3$/yr. If the target draft Is 1.585 billion $m^3$/yr, additional water of 0.094 billion $m^3$ could be supplied every year with its risk. From the similar procedures, the firm yield from the design runoff of Chungju Dam is evaluated 3.377 billion $m^3$/yr and the firm yield from the historic runoff is 2.960 billion $m^3$/yr. If the target draft is 3.377 billion $m^3$/yr, water supply insufficiency occurs for all the sets of time series generated. It may result from overestimation of the spring runoff used for design. The procedure shown can be a more objective method to evaluate water supply reliability of a dam.