地球科学进展

地球科学进展 ›› 2023, Vol. 38 ›› Issue (3): 221 -235. doi: 10.11867/j.issn.1001-8166.2023.009

综述与评述 上一篇    下一篇

调水工程研究评述与展望
贾绍凤 1( ), 梁媛 1 , 2   
  1. 1.中国科学院地理科学与资源研究所 陆地水循环及地表过程重点实验室, 北京 100101
    2.中国科学院大学资源与环境学院, 北京 100049
  • 收稿日期:2022-08-15 修回日期:2023-01-07 出版日期:2023-03-10
  • 基金资助:
    国家重点研发计划项目“阿姆河流域水流调度的e-规则研发”(2021YFE0103900);水利部水利行业指导项目“我国重大调水工程关键问题分析”资助

Commentaries on and Prospects of the Water Diversion Project

Shaofeng JIA 1( ), Yuan LIANG 1 , 2   

  1. 1.Key Laboratory of Water Cycle and Related Land Surface Processes, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China
    2.College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 100049, China
  • Received:2022-08-15 Revised:2023-01-07 Online:2023-03-10 Published:2023-03-21
  • About author:JIA Shaofeng (1964-), male, Longshan County, Hunan Province, Professor. Research areas include water resource and regional sustainable development. E-mail: jiasf@igsnrr.ac.cn
  • Supported by:
    the National Key Research and Development Program of China “The e-rules development of flow regulation in the Amu Darya River basin”(2021YFE0103900);The Water Resource Guide Project of Water Conservancy Ministry “Key problemsanalysis of major water diversion projects in China”
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为落实科学推进实施调水工程的要求,有力提供高质量发展和生态环境保护所需的水安全保障,结合行业标准规范及相关研究成果,概述调水工程主要研究进展。研究表明我国水利工程需水预测易偏大,综合效益评价完整性需加强,生态补偿机制标准尚未建立,后评价跟踪工作不足。今后调水工程应加强生态环境保护及全阶段跟踪评价、落实全成本定价、完善投融资体制、提升信息化智能化管理水平,以支撑我国水资源配置空间均衡及国家水网建设。

关键词: 调水工程, 需水, 可行性评价, 空间均衡, 高质量发展

The aim of this study is to scientifically implement water diversion projects and effectively provide water security for high-quality development and environmental protection. The research progress of water diversion projects is reviewed in terms of industry standards, specifications, and related studies. It was found that water demand prediction tends to be overly high, the integrity of comprehensive benefit evaluation needs to be improved, the standard of ecological compensation mechanism remains incomplete, and post-evaluation and tracking work is insufficient. To support the spatial equilibrium of water resource allocation and the construction of national water networks, future water diversion projects need to strengthen environmental protection and whole-stage follow-up evaluation, perform full cost pricing, perfect the investment and financing system, and improve information and intelligent management.

Key words: Water diversion project, Water demand, Feasibility assessment, Spatial equilibrium, High-quality development

中图分类号: 

图1 调水工程主要文献关键词可视化
圆饼颜色代表文献关键词出现年份,大小代表出现次数
Fig. 1 Key words visualization of main journals of water diversion projects
The color of the circle represents the year of key words, and the size represents the count of key words
图2 调水工程研究进展概述结构框架
突出显示部分为本文概述内容
Fig. 2 Framework of research progress of water diversion projects
The highlight parts belong to overview of the research progress
表1 国外部分调水工程及参数 19
Table 1 Foreign water diversion projects and parameters 19
调水工程名称 水源区 受水区 规划调水量/亿m³ 调水距离/km
美国加州北水南调工程 萨克拉门托河 洛杉矶 52~80 1 086
科罗拉多河—大汤普逊河调水工程 科罗拉多河上游 大汤普逊河 3.8 21.1
加拿大魁北克调水工程 伊斯特曼河、坎尼亚皮斯科河 拉格朗德河 382 861
巴基斯坦西水东调工程 印度河、杰赫勒姆河、杰纳布河 萨特莱杰河、比阿斯河、拉维河 148 589
澳大利亚雪山调水工程 斯诺伊河 墨累—达令盆地 30 224
以色列北水南调工程 太巴列湖(加利利海) 中南部 14 300
表2 国内已建和在建主要跨流域调水工程及参数
Table 2 Main built and under construction cross-basin water diversion projects and parameters in China
调水工程名称 水源区 受水区 规划调水量/亿m³ 调水距离/km
引滦入津 滦河潘家口—大黑汀水库 天津 10 234
引黄济青 黄河打渔张引黄闸 青岛 2.43 291
引黄入冀补淀 黄河渠村新、老引黄闸 白洋淀、河北、河南 6 482
引黄入晋 黄河干流万家寨水库 汾河流域、永定河流域 12 450
南水北调东线一期 长江下游江都水利枢纽 江苏、安徽、山东 88 1 467
南水北调中线一期 长江支流汉江丹江口水库 河南、河北、天津、北京 95 1 277
引江济太 长江望虞河常熟水利枢纽 太湖 28 60
引江济淮 长江凤凰颈闸、枞阳闸 安徽、河南 43 1 049
引汉济渭 长江黄金峡、三河口水利枢纽 陕西 15 98
东深供水工程 东江 东莞、深圳、香港 24 69
滇中引水 金沙江石鼓河段 云南滇中地区 34 664
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