• 한국산업융합학회 논문집
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• 제4권1호
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• pp.51-60
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• 2001

This study examines the effects of removal of the sediment protection weir at Taehwa river mouth on hydraulic and around river environment considering the fact that the effects of the sediment protection weir which is installed to protect water level drop of Ulsan harbor caused by sediments according to flood in Taehwa river, Dong-chun, and so forth may add water quality contamination by flow stagnance in normal and drought period and accumulation of pollutants. The result is as follows. First, it is estimated from the examination of variation characteristics water depth and level for Taehwa river before and after removal of the sediment protection weir that about 0.01m of water depth down according to removal of the sediment protection weir occurs when low flow runs between the sediment protection weir which is located about 2.3km away from the estuary and Samho-gyo which is about 9.0km away from the sediment protection weir, and about 0.01~0.56m(directly upstream point of the sediment protection weir 0.56m, Myongchon-gyo 0.14m, Ulsan-gyo 0.03m, and Taehwa-gyo 0.02m) downs when design flood flows between the sediment protection weir and the upstream of Taehwa-gyo which is 10km away from the sediment protection weir. Therefore, it is thought that variation of hydraulic characteristics of water depth down and so on according to removal of the sediment protection weir is slight because water depth variation is only about 1cm between directly upstream point of the sediment protection weir and Samho-gyo. Next, it is estimated from the examination of variation characteristics of flow velocity for Taehwa river before and after removal of the sediment protection weir that about 0.0lm/s of flow velocity increase occurs between the directly upstream point of the sediment protection weir which is about 2.4km away from the estuary and the directly upstream point of Samho-gyo when low flow runs, and about 0.01~0.44m/s increases between the sediment protection weir and Samho-gyo when design flood flows. Therefore, riverbed erosion by the increased flow velocity is concerned but it is thought that the concern about riverbed erosion is not great because the mean velocity is about 0.07~1.36m/s when low flow runs, and about 1.02~2.41m/s when design flood flows for the sector which experiences the flow velocity variation.

• 한국환경과학회지
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• 제13권3호
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• pp.263-277
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• 2004

The purpose of this study is to analyze the characteristics of riverbed variation due to the sediment protection weir located on the estuary of the main stream of Taehwa river using I-D finite difference model, HEC-6 model, and the followings are the results of estimating sediment transport rate, amount of scour or deposition, and accumulated amount of deposit according to before and after of the sediment protection weir removal with various flow rates in the channel. Ackers-White transport function produced the greatest sediment transport rate while Meyer-Peter showed the smallest sediment transport rate at the most down stream area of the watershed through the sediment transport rate analyses for various flow rates according to the existence or nonexistence of the sediment protection weir. Toffaleti's and Colby transport function were closest to the average value, and the difference among the results of the sediment transport functions showed up to 8～9 times. Duboy's transport function produced the greatest riverbed variation while Toffaleti's showed the smallest variation through the riverbed variation analyses according to the existence or nonexistence of the sediment protection weir. Yang's was closest to the average value, and the difference among the results of the riverbed variation analyses ranged from 1.4 times to 11 times. It is thought that a sediment transport function must be selected very carefully with respect to the criteria of sediment yield estimation because the analysis results of the sediment transport rate and riverbed variation according to flow rates showed significant differences among the sediment transport functions, and the differences of sediment transport rate and riverbed variation according to the various sediment transport functions decreased as the flow rate increased.

• 한국방재학회 논문집
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• 제1권3호
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• pp.93-102
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• 2001

본 연구에서는 HEC-6 모형을 이용하여 태화강 본류하도 하구부에 위치한 방사보의 영향에 따른 하상변동특성을 분석 검토함으로서, 향후 태화강 하도종합개발계획 수립시에 효과적으로 이용할 수 있도록 하였다. 하상변동특성 분석에 필요한 유량 조건은 태화강 하천정비기본계획수립에서 검토된 풍수량, 홍수량 및 계획홍수량 조건을 이용하였다. 먼저, 하상변동폭에 대한 분석 결과, 삼호교 하류 하도구간에서는 유하유량이 클수록 세굴과 퇴적이 활발히 진행되고 있으나 삼호교 상류 하도구간에서는 큰 변동이 없는 것으로 분석되었다. 다음으로, 유사이송능을 검토한 결과, 유하유량이 클수록 유사이송능은 큰 값으로 추정되었으나 계획홍수량 유하시 방사보 철거전후의 태화강 하구부의 유사이동능은 큰 차이가 없는 것으로 분석되었다. 따라서, 방사보 철거로 인한 토사유입량 감소대책을 고려하여 태화강 하류부에서 유입되는 동천지류의 최하류부에 하천유지용수 확보와 태화강으로의 유사량 유입을 감소시키기 위하여 적절한 수리 구조물을 설치한다면 방사보 제거 후에도 태화강 최하류부의 유사량 퇴적을 감소시키는 좋은 방안이 될 것으로 판단된다.

• 대한토목학회논문집
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• 제35권4호
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• pp.821-834
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• 2015

본 연구에서는 세굴방지를 위하여 설치된 바닥보호공의 영향을 고려한 흐름특성 및 하상변동에 관한 연구를 수행하였다. 대상지역은 낙동강유역의 합천창녕보가 포함된 현풍 수위관측소에서부터 마수원 수위관측소까지의 구간이며, CCHE2D 모형을 적용하기 위하여 2010년 태풍 '곤파스'사상을 대상으로 검 보정하였다. 바닥보호공에 대한 영향을 분석하기 위하여 빈도별 호우사상(50년, 100년, 200년)에 대해 세 가지의 모의조건(Case 1, 2, 3)을 구성하였으며, Case 1은 보가 설치되기 이전의 조건, Case 2는 보가 설치된 이후의 조건, Case 3는 바닥보호공을 고려한 조건이다. 보의 설치로 인하여(Case 2) 고정보 및 전도게이트형 가동보 구간에는 퇴적량이 증가하였고, 리프트게이트형 가동보 구간은 높은 수위차로 인하여 보를 건설하기 이전(Case 1)보다 더 많은 세굴이 발생하였다. Case 3은 바닥보호공의 영향으로 보 직하구간(30m)에서 세굴이 발생하지 않았다. 그러나 바닥보호공이 설치되지 않은 보 하류구간(60m 이상)에서는 보가 설치되기 이전 조건(Case 1)보다 더 많은 세굴이 발생하였다. 이와 같은 결과를 통하여 본 연구결과는 실제 보에 대한 하상변동 예측과 보의 관리 및 운영에 대한 도움을 줄 수 있을 것으로 판단된다.

• 대한토목학회논문집
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• 제31권4B호
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• pp.353-360
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• 2011

본 연구는 수리 실험을 통하여 보 형상 변화에 따른 보 하류부 세굴의 시간적 변화를 분석하였다. 보 하류부 세굴에 대한 기존의 연구는 최대세굴심의 예측에 대한 연구가 대부분이었으나 현장에서 발생 가능한 실제 세굴심의 예측을 위해서는 시간 변화에 따른 세굴심의 변화에 대한 연구가 필요하다. 본 연구에서는 예연보, 경사형보와 같은 보 형상 변화에 따른 하류부 세굴의 시간적 변화를 수리실험을 통하여 분석하였다. 보 형상별 시간 변화에 따른 세굴심 예측식은 유사의 연속방정식을 기본으로 실험을 통하여 측정된 시간변화에 따른 보 하류부 세굴공의 체적 변화량과 보 하류부 세굴심 변화량 자료들의 회귀분석을 통하여 평형세굴시간, 평형세굴심, 월류고, 보 높이를 이용한 세굴심 예측공식을 제안하였다. 제안된 식은 기존의 보 하류부 평형 세굴심 예측식들이 반영하지 못한 설계홍수지속기간을 반영할 수 있어서 보 하류부 세굴보호공의 설계 시 경제적이고 합리적인 설계가 가능할 것으로 판단된다.

• 한국안전학회지
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• 제32권4호
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• pp.34-39
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• 2017

Typical flow regime of overflow at barrier or weir constructed in mid and small streams becomes as the submerged flow during most flood events. One of major causes of barrier failure has been reported as the levee-scour near the conjuction node between barrier and levee. However, most related design guidelines in Korea have not mentioned about the protection of levee around barrier or weir in detail. Furthermore, most previous researches have focused on the flow characteristics of overflow around several types of weirs but they did not have considered the material properties of levee itself. In this study, local scour near barrier was investigated with different material properties of levee under the submerged overflow condition which is assumed to reenact a flood event. Based on results from Fritz et al. and Mavis et al., a theoretical formula was also proposed in initial stage of laboratory experiments. And hydraulic experiments were carried out for the verification of the proposed formula. Levee was installed in the prismetic trapezoidal open channel and most parts were made of concrete except for movable section in which scour was expected to occur for the efficiency of experimental procedure. Each compaction of movable section in levee was followed by the basis of the KS F 2312. Further, after performing the experiments to find the optimum water content for each sediment, the specific amount of water was injected before flowing water. The difference between the proposed theoretical formula and experiment results was not much but considerable, which might be caused by the effect of compaction. For theoretical approach, it seemed that the formula did not take into account the compaction of levee, thus the correction coefficient for levee compaction determined in the literature was considered. Finally, the formula for the length of scour around barrier or weir was proposed, which can be useful to predict a levee in the reference design of revetment in mid and small streams. As shortly future study, scour length of levee around barrier or weir under different flow conditions such as perfect overflow condition will be studied and it will be able to contribute to suggest the design formula or criteria under all overflow conditions near barrier or weir.