[1]万鹏,王志华,朱方毅,等.分合可控的生态河、湖系统方案研究[J].中国给水排水,2024,40(10):52-57.
WANPeng,WANG Zhi-hua,ZHU Fang-yi,et al.Research on the Scheme of Separating and Combining Controllable Ecological River and Lake System[J].China Water & Wastewater,2024,40(10):52-57.
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WANPeng,WANG Zhi-hua,ZHU Fang-yi,et al.Research on the Scheme of Separating and Combining Controllable Ecological River and Lake System[J].China Water & Wastewater,2024,40(10):52-57.
分合可控的生态河、湖系统方案研究
中国给水排水[ISSN:1000-4062/CN:12-1073/TU]
卷:
第40卷
期数:
2024年第10期
页码:
52-57
栏目:
出版日期:
2024-05-17
- Title:
- Research on the Scheme of Separating and Combining Controllable Ecological River and Lake System
- 摘要:
- 针对目前国内部分已建人工湖泊存在河、湖系统构建方式单一、水质不达标、水质反复恶化、重水生态轻外部制约因素调控、水质保障手段缺乏系统性等问题,从流域角度开展了分合可控的生态河湖系统方案研究,以此作为人工水生态系统构建的基础,为河湖系统规划、设计提供科学支撑。结合成都市杨柳河流域河湖系统构建与水质保障系统设计案例,探讨了特征识别、外部制约因素分析、水质目标可达性分析等,提出了可控分离的生态河湖一体设计方案,以期为国内新建河湖系统和现有河湖系统改造规划设计提供参考。
- Abstract:
- Currently, some of the constructed artificial lakes in China are facing challenges such as the single way of the river and lake system construction, inadequate water quality, repeated deterioration of water quality, and prioritization of water ecology over external constraint regulation, and lack of systematic means of guaranteeing water quality. Therefore, there is an urgent need to investigate controllable ecological river and lake system schemes from a watershed perspective, serving as the foundation for constructing artificial water ecosystem. This research aims to provide scientific support for the planning and design of the river and lake system. By examining the design case of the river and lake system construction and water quality assurance system for Yangliu River watershed, discussions on characteristics recognition, analysis of external factors, and assessment of water quality target attainment were facilitated. Furthermore, an integrated design scheme of ecological river and lake system which is controllably separated is proposed to provide a reference for the new river and lake system design and the existing river and lake system reconstruction planning.
更新日期/Last Update:
2024-05-17