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流域水库群运行水位优化设计与多目标联合调控OA

Optimal design of water levels and multi-objective coordinated operation for basin-wide reservoir groups

中文摘要英文摘要

水利水电工程兴建运行改变了下游河流的水文情势,洪水时空分布发生了显著变化.基于单站天然资料系列推求的水库建设期设计洪水及汛限水位,无法适应水库运行期来水来沙变化实况,致使水库汛期弃水与汛后无水可蓄,防洪与兴利矛盾凸显.本文突破传统"单库设计—静态运用"的局限,从"规划设计—联合运用—优化调度"层层递进的角度,综述水库运行期设计洪水计算理论和方法,归纳水库群防洪库容联合设计及互补等效关系研究进展,论述流域水库群多目标联合调度模型与求解方法,提出需要继续深入研究的科学技术问题.建议以洪水资源化利用为目标,强化流域水库群运行水位优化设计与多目标联合调控的研究及应用.

The construction and operation of hydraulic and hydropower projects have altered the downstream hydro-logical regimes,resulting in significant changes in the spatiotemporal distribution of floods.Operation rules based on single-station natural observations and designed for individual reservoirs can no longer adapt to these dynamically evolving water and sediment conditions,leading to prominent conflicts between flood-season water releases and post-flood-season storage in many reservoirs.Against this backdrop,this study breaks through the traditional"single-reservoir design—static operation"paradigm by adopting a progressive approach of"planning and design—joint utili-zation—optimal operation."It systematically reviews theories and methodologies for determining design floods in cas-cade reservoirs operation period,summarizes research approaches for joint design and complementary equivalent rela-tionship of flood prevention storage in reservoir groups,and outlines models and solution techniques for multi-objective joint operation of cascade reservoirs.In addition,it identifies key scientific issues and critical technologies that require further research.Aiming at the efficient utilization of floodwater resources,the study recommends strengthening research and application in optimal design of water levels and multi-objective joint operation of basin-wide reservoir groups.

郭生练;谢雨祚;钟斯睿

武汉大学 水资源工程与调度全国重点实验室,湖北 武汉,430072武汉大学 水资源工程与调度全国重点实验室,湖北 武汉,430072武汉大学 水资源工程与调度全国重点实验室,湖北 武汉,430072

建筑与水利

水库群设计洪水汛限水位优化设计联合调度洪水资源高效利用

reservoir groupdesign floodflood limited water leveloptimal designjoint operationflood water resourceshigh-efficiency utilization

《水利学报》 2026 (1)

103-113,167,12

国家自然科学基金长江联合基金项目(U2340205)

10.3724/j.slxb.20250560

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