竞争性用水问题本质及解决途径与方法

doi:10.3880/j.issn.10046933.2025.01.001

首页 > 过刊浏览>2025年第41卷第1期 >1-8. DOI:10.3880/j.issn.10046933.2025.01.001

PDF HTML阅读 XML下载导出引用引用提醒

竞争性用水问题本质及解决途径与方法

DOI:

10.3880/j.issn.10046933.2025.01.001

作者:

左其亭 ^{^1,2}
左其亭
郑州大学水利与交通学院,河南郑州 450001;河南省水循环模拟与水环境保护国际联合实验室,河南郑州 450001
在知网中查找
在百度中查找
在本站中查找
张志卓 ^¹
张志卓
郑州大学水利与交通学院,河南郑州 450001
在知网中查找
在百度中查找
在本站中查找
马军霞 ^{^1,2}
马军霞
郑州大学水利与交通学院,河南郑州 450001;河南省水循环模拟与水环境保护国际联合实验室,河南郑州 450001
在知网中查找
在百度中查找
在本站中查找

作者单位:

(1.郑州大学水利与交通学院,河南郑州 450001;2.河南省水循环模拟与水环境保护国际联合实验室,河南郑州 450001 )

作者简介:

左其亭 (1967—),男,教授,博士,主要从事水文水资源研究。E-mail:zuoqt@zzu.edu.cn 通信作者:马军霞 (1968—),女,高级实验师,硕士,主要从事水文水资源研究。E-mail:majx@zzu.edu.cn

通讯作者:

中图分类号:

基金项目:

国家科技基础专项“第三次新疆综合科学考察”项目(2021xjkk0703)；国家自然科学基金项目(52279027)

Essence, resolutions, and dealing methods of competitive water use issues//

Author:

ZUO Qiting ^{^1,2}
ZUO Qiting
School of Water Conservancy and Transportation, Zhengzhou University, Zhengzhou 450001, China;Henan International Joint Laboratory of Water Cycle Simulation and Environmental Protection, Zhengzhou 450001, China
在知网中查找
在百度中查找
在本站中查找
ZHANG Zhizhuo ^¹
ZHANG Zhizhuo
School of Water Conservancy and Transportation, Zhengzhou University, Zhengzhou 450001, China
在知网中查找
在百度中查找
在本站中查找
MA Junxia ^{^1,2}
MA Junxia
School of Water Conservancy and Transportation, Zhengzhou University, Zhengzhou 450001, China;Henan International Joint Laboratory of Water Cycle Simulation and Environmental Protection, Zhengzhou 450001, China
在知网中查找
在百度中查找
在本站中查找

Affiliation:

(1.School of Water Conservancy and Transportation, Zhengzhou University, Zhengzhou 450001, China;2.Henan International Joint Laboratory of Water Cycle Simulation and Environmental Protection, Zhengzhou 450001, China)

Fund Project:

摘要

图/表

访问统计

参考文献

相似文献

引证文献

文章评论

摘要:

竞争性用水现象普遍存在于水科学研究与治水实践的各个层面,系统认识并合理解决竞争性用水问题,对新时期国家水安全保障具有重要意义。基于竞争性用水相关研究积累,首次定义了竞争性用水的概念,从时间、空间、系统3个维度解读其内涵并进行类型划分,构建了包含12种类型竞争性用水的三维层级结构。逐一解析不同竞争性用水问题的本质,归纳了解决问题应遵循的基本原理。在此基础上进一步研判不同竞争性用水问题潜在的解决途径及方法,系统提出了竞争性用水一般性计算方法,对黄河分水问题进行实例分析,得到了370亿m³水量下的黄河综合分水方案。

关键词:竞争性用水;用水类型划分;人水关系;分水;黄河中图分类号:TV213.4 文献标志码:A 文章编号:10046933

Abstract:

The phenomenon of competitive water use generally exists in various aspects of water science research and water management practice. Systematic understanding and reasonable resolution of competitive water use issues are significant for ensuring national water security in the new era. Based on the accumulated research on competitive water use, the concept of competitive water use is defined for the first time, its connotation is interpreted from the three dimensions of time, space and system, and its types are classified. Accordingly, a three-dimensional hierarchical structure of 12 types of competitive water use is constructed. Then, the essence of different competitive water use issues is analyzed, and the basic principles that should be followed to solve these issues are summarized. On this basis, the potential solutions and related methods for different competitive water use issues are further explored, and a general calculation method for competitive water use is proposed systematically. A case study of the Yellow River water allocation problem is carried out, and an integrated water allocation scheme with a total volume of 370 m³ is obtained for the Yellow River. Keywords: competitive water use; classification of water use; human-water relationship; water allocation; the Yellow River 〖FL

Key words:competitive water use; classification of water use; human-water relationship; water allocation; the Yellow River 〖FL

参考文献

[1] UNESCO,UN-Water,World Water Assessment Programme.The United Nations world water development report 2023:partnerships and cooperation for water[R].Paris:UNESCO,2023.

[2] ROCKSTRM J,STEFFEN W,NOONE K,et al.A safe operating space for humanity[J].Nature,2009,461(7263):472-475.

[3] Department of Economic and Social Affairs, United Nations.The sustainable development goals report 2023[R].New York:United Nations,2023.

[4] 左其亭,吴青松,纪义虎,等.区域水平衡及失衡程度度量方法[J].水利学报,2024,55(1):1-12.(ZUO Qiting,WU Qingsong,JI Yihu,et al.Methods for measuring regional water balance and imbalance degree[J].Journal of Hydraulic Engineering,2024,55(1):1-12.(in Chinese)

[5] 新夫,于会淼,生然.可持续发展背景下企业水安全评价指标体系构建与应用[J].水利经济,2024,42(6):84-90.(XIN Fu,YU Huimiao,SHENG Ran.Construction and application of corporate water security evaluation index system in context of sustainable development[J].Journal of Economics of Water Resources,2024,42(6):84-90.(in Chinese)

[6] 姚汉源.中国水利史纲要[M].北京:水利电力出版社,1987.

[7] 水利水电科学研究院中国水利史稿编写组.中国水利史稿(上、中、下册)[M].北京:水利电力出版社,1989.

[8] ROCKSTRM J,GUPTA J,QIN Dahe,et al.Safe and just earth system boundaries[J].Nature,2023,619(7968):102-111.

[9] 左其亭.水资源可持续利用研究历程及其对我国现代治水的贡献[J].地球科学进展,2023,38(1):1-8.(ZUO Qiting.Research on sustainable utilization of water resources and its contribution to modern water control in China[J].Advances in Earth Science,2023,38(1):1-8.(in Chinese)

[10] 夏军,占车生,曾思栋,等.长江模拟器的理论方法与实践探索[J].水利学报,2022,53(5):505-514.(XIA Jun,ZHAN Chesheng,ZENG Sidong,et al.Theoretical method and practical exploration of Yangtze River simulator construction[J].Journal of Hydraulic Engineering,2022,53(5):505-514.(in Chinese)

[11] LI Zhehao,WANG Yimin,CHANG Jianxia,et al.Multi-objective double layer water optimal allocation and scheduling framework combing the integrated surface water-groundwater model[J].Water Research,2024,262:122141.

[12] 郭生练,陈炯宏,刘攀,等.水库群联合优化调度研究进展与展望[J].水科学进展,2010,21(4):496-503.(GUO Shenglian,CHEN Jionghong,LIU Pan,et al.State-of-the-art review of joint operation for multi-reservoir systems[J].Advances in Water Science,2010,21(4):496-503.(in Chinese)

[13] 王宗志,谈丽婷,耿敏,等.考虑调水和供水规则的水库优化调度[J].水资源保护,2023,39(1):15-21.(WANG Zongzhi,TAN Liting,GENG Min,et al.Reservoir optimal operation considering water transfer and supply rules[J].Water Resources Protection,2023,39(1):15-21.(in Chinese)

[14] 左其亭,吴滨滨,张伟,等.跨界河流分水理论方法及黄河分水新方案计算[J].资源科学,2020,42(1):37-45.(ZUO Qiting,WU Binbin,ZHANG Wei,et al.A method of water distribution in transboundary rivers and the new calculation scheme of the Yellow River water distribution[J].Resources Science,2020,42(1):37-45.(in Chinese)

[15] WHEELER K G,HALL J W,ABDO G M,et al.Exploring cooperative transboundary river management strategies for the Eastern Nile Basin[J].Water Resources Research,2018,54(11):9224-9254.

[16] YUAN Liang,WU Xia,HE Weijun,et al.Using the fuzzy evidential reasoning approach to assess and forecast the water conflict risk in transboundary rivers:a case study of the Mekong River Basin[J].Journal of Hydrology,2023,625:130090.

[17] BERNAUER T,BHMELT T.International conflict and cooperation over freshwater resources[J].Nature Sustainability,2020,3(5):350-356.

[18] 左其亭,全志淼,吴青松,等.经济社会与生态用水平衡计算规则与方法[J].水资源保护,2024,40(3):1-10.(ZUO Qiting,QUAN Zhimiao,WU Qingsong,et al.Calculation rules and methods for water use balance between economic society and ecology[J].Water Resources Protection,2024,40(3):1-10.(in Chinese)

[19] 倪红珍,王浩,汪党献.经济社会与生态环境竞争用水的水价研究[J].水资源保护,2008,24(3):73-76.(NI Hongzhen,WANG Hao,WANG Dangxian.Water pricing model of competitive water use for the economy,society and environment[J].Water Resources Protection,2008,24(3):73-76.(in Chinese)

[20] 左其亭,吴青松,金君良,等.区域水平衡基本原理及理论体系[J].水科学进展,2022,33(2):165-173.(ZUO Qiting,WU Qingsong,JIN Junliang,et al.The basic principle and theoretical system of regional water balance[J].Advances in Water Science,2022,33(2):165-173.(in Chinese)

[21] 左其亭.人水关系学的基本原理及理论体系架构[J].水资源保护,2022,38(1):1-6.(ZUO Qiting.Basic principles and theoretical system of human-water relationship discipline[J].Water Resources Protection,2022,38(1):1-6.(in Chinese)

[22] 左其亭,张志卓,马军霞.水资源分类方案及学科体系[J].资源科学,2021,43(11):2215-2223.(ZUO Qiting,ZHANG Zhizhuo,MA Junxia.Classification scheme of water resources and its disciplinary system[J].Resources Science,2021,43(11):2215-2223.(in Chinese)

[23] 粟晓玲,康绍忠.生态需水的概念及其计算方法[J].水科学进展,2003,14(6):740-744.(SU Xiaoling,KANG Shaozhong.Concept of ecological water requirement and its estimation method[J].Advances in Water Science,2003,14(6):740-744.(in Chinese)

[24] 左其亭,赵衡,马军霞.水资源与经济社会和谐平衡研究[J].水利学报,2014,45(7):785-792.(ZUO Qiting,ZHAO Heng,MA Junxia.Study on harmony equilibrium between water resources and economic society development[J].Journal of Hydraulic Engineering,2014,45(7):785-792.(in Chinese)

[25] 王煜,尚文绣,彭少明.基于水库群预报调度的黄河流域干旱应对系统[J].水科学进展,2019,30(2):175-185.(WANG Yu,SHANG Wenxiu,PENG Shaoming.Yellow River Basin drought response system based on the prediction and operation of cascade reservoirs[J].Advances in Water Science,2019,30(2):175-185.(in Chinese)

[26] 赵勇,李海红,刘寒青,等.增长的规律:中国用水极值预测[J].水利学报,2021,52(2):129-141.(ZHAO Yong,LI Haihong,LIU Hanqing,et al.The law of growth:prediction of peak water consumption in China[J].Journal of Hydraulic Engineering,2021,52(2):129-141.(in Chinese)

[27] 左其亭.中国水利发展阶段及未来“水利4.0”战略构想[J].水电能源科学,2015,33(4):1-5.(ZUO Qiting.Development stage of Chinese water conservancy and strategic concept of future “water conservancy 4.0”[J].Water Resources and Power,2015,33(4):1-5.(in Chinese)

[28] 郭潇,方国华,章哲恺.跨流域调水生态环境影响评价指标体系研究[J].水利学报,2008,39(9):1125-1130.(GUO Xiao,FANG Guohua,ZHANG Zhekai.Index system of eco-environment impact assessment for inter basin water transfer[J].Journal of Hydraulic Engineering,2008,39(9):1125-1130.(in Chinese)

[29] 左其亭,秦西,马军霞.黄河模拟器建设框架设计及发展布局[J].人民黄河,2023,45(9):18-23.(ZUO Qiting,QIN Xi,MA Junxia.Framework design and development layout of Yellow River simulator construction[J].Yellow River,2023,45(9):18-23.(in Chinese)

[30] 张巍,韩军,周绍杰.中国城镇居民用水需求研究[J].中国人口·资源与环境,2019,29(3):99-109.(ZHANG Wei,HAN Jun,ZHOU Shaojie.Water consumption of Chinese urban residents:from perspectives of micro data[J].China Population,Resources and Environment,2019,29(3):99-109.(in Chinese)

引用本文

左其亭,张志卓,马军霞.竞争性用水问题本质及解决途径与方法[J].水资源保护,2025,41(1):1-8.(ZUO Qiting, ZHANG Zhizhuo, MA Junxia. Essence, resolutions, and dealing methods of competitive water use issues//[J]. Water Resources Protection,2025,41(1):1-8.(in Chinese))

复制

文章指标

点击次数:125
下载次数: 76
HTML阅读次数: 0
引用次数: 0

历史

收稿日期:
最后修改日期:
录用日期:
在线发布日期: 2025-03-04
出版日期:

引用本文

分享

文章指标

历史