长江黄河跨流域多线路成网互济的调水机制研究I:机制与模型

付湘; 赵小丹; 彭少明; 范志鹏; 王煜; 李云玲

文章摘要

长江黄河跨流域多线路成网互济的调水机制研究I:机制与模型

Study on Water Transfer Mechanisms of the Yangtze River and Yellow River Inter-basin Multi-Route Networking Mutualism I: Mechanisms and Model

投稿时间：2024-10-31 修订日期：2025-06-18

DOI：

中文关键词: 长江黄河跨流域成网互济调水机制源流网配协同优化合作博弈

英文关键词: Inter-basin Water Transfer between Yangtze River and Yellow River Water network mutual assistance Water Transfer Mechanism Coordinated Optimization of Water Source-Flow-Network-Allocation

基金项目:国家重点研发计划重点专项(2022YFC3202300)；国家自然科学(52479023,U21A2002)

作者	单位	邮编
付湘	武汉大学水资源工程与调度全国重点实验室	430072
赵小丹^*	武汉大学水资源工程与调度全国重点实验室	430072
彭少明	水利部水利水电规划设计总院
范志鹏	武汉大学水资源工程与调度全国重点实验室
王煜	水利部黄河水利委员会
李云玲	水利部水利水电规划设计总院

摘要点击次数: 183

全文下载次数: 0

中文摘要:

变化环境下长江黄河跨流域多线路成网互济调水机制研究，对提升黄河流域水资源安全保障能力具有重要的意义。本文针对长江黄河跨流域多线路调水，统筹南水北调东、中、西三条线路各自特点和优势，提出长江黄河跨流域成网互济调水机制的定义、总体架构及其组成部分之间的相互作用关系。围绕跨流域水网的多水源供给、多线路互济、多工程调控、多目标冲突、多主体博弈特征，构建了多尺度、多过程、多要素与多约束的“源-流-网-配”协同优化模型。根据“源-流-网-配”系统的互动特性，建立保障水网高效运行、水资源空间均衡、社会经济发展和生态健康的协同发展目标，提出了基于NSGA-II和合作博弈的协同优化算法，以实现水网资源的灵活互济配置。

英文摘要:

The study of the inter-basin multi-line network water transfer mechanism of the Yangtze River and Yellow River in the context of environmental change is of great significance for enhancing the capacity of water resources security in the Yellow River Basin. This paper focused on the Yangtze River and Yellow River inter-basin multi-line water transfer, integrated the characteristics and advantages of each of the three routes of the South-to-North Water Diversion, and proposed the definition of the Yangtze River and Yellow River inter-basin network of mutual water transfer mechanisms, the overall structure, and the interaction relationship between its components. A multi-scale, multi-process, multi-factor and multi-constraint source-flow-network-allocation synergistic optimization model was constructed around the multi-basin water network features of multi-source supply, multi-route mutual aid, multi-engineering regulation, multi-target conflict, and multi-subject game. In consideration of the interactive characteristics of the source-flow network and distribution system, the following synergistic development objectives were established: guaranteeing the efficient operation of the water network, maintaining the spatial equilibrium of water resources, facilitating socio-economic development, and ensuring ecological health. To achieve these objectives, a synergistic optimization algorithm based on NSGA-II and cooperative game theory was proposed to allocate the water network resources in a flexible and mutually beneficial manner.

查看/发表评论下载PDF阅读器

关闭