• Journal of Korea Water Resources Association
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• v.40 no.1 s.174
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• pp.1-10
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• 2007

Reallocation procedure of multipurpose reservoir storage capacity between flood control and conservation is presented as an alternative to secure more water resources. Storage reallocation is an adaptive management mechanism for converting existing normal pool level of reservoirs to more beneficial uses without requirement for physical alteration. This study is intended to develop a reservoir storage reallocation methodology that allows increased water supply storage without minimizing adverse impacts on flood control. The methodology consists of flood control reservoir simulation for inflows with various return periods, flow routing from reservoir to a potential damage site, analyzing river carrying capacity, and reservoir yields estimation for reallocated storages. For the flood control model, a simulation model called Rigid ROM(Reservoir Operation Method) and HEC-5 are used. The approach is illustrated by applying it to two reservoirs system in Geum River basin. Especially with and without new project conditions are considered to analyze trade-offs between competing objectives.

• Journal of Korea Water Resources Association
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• v.37 no.4
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• pp.273-281
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• 2004

Generally, reservoir storage is allocated according to planned purposes established before construction and operating policies are established through release control. The established reservoir allocation is hardly changed unless the special cases such as raising dam or changed purposes occur It Is, however, likely that public needs and objectives can be changed as time go on, the study for multipurpose reservoir storage reallocation is performed as an alternative to reflect these. In this study, flood control analysis is performed for several alternatives of reallocation for the Daechung multi-purpose reservoir in Geum river. As a result, it is confirmed that flood control capability is not decreased compared to single operation of Daechung reservoir for the same flood condition even if conservation level of Daechung multi-purpose reservoir is increased.

• Journal of Korea Water Resources Association
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• v.37 no.4
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• pp.283-292
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• 2004

In the past, it was unnecessary to consider the reallocation of reservoir storage because new reservoir construction was relatively not difficult. However, it became necessary since it is so difficult to construct new reservoirs in these days. In this study, the change of the water supply capability is evaluated through conservation storage drawdown frequency analysis, hydropower analysis, reliability, resiliency and vulnerability analyses for Geum River basin. As a result, it is confirmed that water supply capability of Daechung reservoir can be increased by reallocating flood control storage to conservation storage.

• Water for future
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• v.28 no.6
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• pp.217-228
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• 1995

For optimal reservoir operation during flood period, a general and systematic policy is suggested to make balance of the conflicting purposes between water conservation and flood control. The purpose of this study is to decide the restricted water level of the reservoir during flood period specially to meet water demand in non-flood period. The optimal policy is derived by reallocation of storage capacity through the application of variable restricted water level(VRWL) and minimum required water level(MRWL) for shorter intervals. This study also suggests water level dconditions to secure conservation storage capacity at the end of the flood period estimated by reservoir operation study. This paper illustrates an application of the Daecheong Dam and Chungju Dam respectively during flood and the results are reviewed.

• Water Engineering Research
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• v.3 no.1
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• pp.57-62
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• 2002

This research is intended to integrate long-term operation rules and real time operation policy for conservation & flood control in a reservoir. The familiar Yield model has been modified and used to provide long-term rule curves. The model employs linear programming technique under given physical conditions, i.e., total capacity, dead storage, spillways, outlet capacity and their respective elevations to find required and desired minimum storage fur different demands. To investigate the system behavior resulting from the above-mentioned operating policy, i.e., the rule curves, the simulation model was used. Results of the simulation model show that the results of the optimization model are indeed valid. After confirmation of the above mentioned rule curves by the simulation models, gate operation procedure was merged with the long term operation rules to determine the optimum reservoir operating policy. In the gate operation procedure, operating policy in downstream flood plain, i.e., determination of damaging and non-damaging discharges in flood plain, peak floods, which could be routed by reservoir, are determined. Also outflow hydrograph and variations of water surface levels for two known hydrographs are determined. To examine efficiency of the above-mentioned models and their ability in determining the optimum operation policy, Esteghlal reservoir in Iran was analyzed as a case study. A numerical model fur the solution of two-dimensional dam break problems using fractional step method is developed on unstructured grid. The model is based on second-order Weighted Averaged Flux(WAF) scheme with HLLC approximate Riemann solver. To control the nonphysical oscillations associated with second-order accuracy, TVD scheme with SUPERBEE limiter is used. The developed model is verified by comparing the computational solutions with analytic solutions in idealized test cases. Very good agreements have been achieved in the verifications.

• Proceedings of the Korea Water Resources Association Conference
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• 2005.05b
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• pp.304-308
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• 2005

본 연구에서는 금강유역의 대청다목적댐을 대상으로 대청댐의 제한수위를 변화시켜 가며 대청댐의 홍수조절과 용수공급능력을 판단하였다. 이를 위하여 홍수기 저수지 모의운영 방법 중 Rigid ROM 기법을 수정$\cdot$보완하여 개발한 모의기법을 이용하여 빈도별 홍수유입량에 대해 홍수기 저수지 운영을 실시하였다. 모의운영에 의해 얻은 방류량을 대청댐으로부터 공주지점까지 홍수추적함으로써 공주지점의 최대홍수량을 산정하였다. 산출된 공주지점 최대홍수량을 토대로 대청댐 제한수위의 변화와 빈도별 유입 홍수량의 함수로써 공주지점의 최대홍수량 관계식을 유도하고, 이 관계식을 이용하여 합리적인 대청댐 재할당 수위 및 대청댐 홍수조절 능력을 산정하였다. 또한 대청댐의 상시만수위를 변화시키면서 신뢰도 $95\%$를 만족시키는 용수공급량을 산정하였다. 본 연구의 결과, 홍수조절 측면에서 대청댐의 상시만수위를 78m로 재할당시에 24시간 지속기간을 갖는 300년 빈도 홍수에도 홍수조절이 가능하므로 대청댐의 용량 재할당량은 78m가 적합한 것으로 판단된다. 78m로 재할당 했을 시 이수측면에서 신뢰도 $95\%$를 만족시키는 용수공급량은 기존의 상시만수위 76.5m로 운영했을 시와 비교하여 약 $3\% 증가하는 효과를 얻을 수 있었다.