城乡供水一体化分区耦合协调模型OA
Zoning-based Coupling Coordination Model for Integrated Urban-Rural Water Supply:A Case Study of Chongqing City
重庆市集大城市、大农村、大山区、大库区于一体,水资源时空分布不均,城乡供水一体化发展难度大.为探讨如何在复杂地理与社会经济条件下实现城乡供水一体化发展,以城乡供水一体化的内涵为基础,结合重庆市城乡供水一体化不同发展模式特征,统筹考虑区域现状农村供水工程体系、自然地理条件、社会经济发展等因素,构建城乡供水一体化"工程—自然—经济"耦合协调评价指标体系与分区模型.通过对重庆市34个区县开展案例分析,得到具有不同区域特征的供水分区格局.结果表明:城市管网延伸模式分布于主城都市区,依托其高城镇化率实现供水全域覆盖;区域管网联通模式涵盖主城及渝东北地区,通过联通管网解决高程差异问题;区域整合块状模式分布在主城及渝东北地区,通过整合小型水源形成集约化供水单元;单村提标点状模式分布在渝东北和渝东南地区,通过分散式供水解决地形复杂区域饮水问题.研究成果可为重庆市城乡供水一体化建设提供技术支撑,对保障区域供水安全、促进成渝双城经济圈高质量发展具有重要意义.
[Objective]This study aims to address the issues of uneven spatiotemporal distribution of water re-sources and the difficulty in developing integrated urban-rural water supply in mountainous cities.Based on the con-notation of integrated urban-rural water supply and the characteristics of its different development modes,this study innovatively constructs a coupling coordination evaluation indicator system and a zoning model for integrated urban-rural water supply.Taking the typical mountainous city of Chongqing as a case study,water supply zoning patterns with distinct regional characteristics are identified,and differentiated development schemes for urban-rural water supply are proposed.[Methods]Eight indicators were selected from three dimensions-current status of rural wa-ter supply engineering systems,natural geographical conditions,and socio-economic development.An"engineer-ing-natural-economic"coupling coordination evaluation indicator system for integrated urban-rural water supply was constructed,and the Delphi method was used to determine the indicator weights.Considering the mutual constraints and synergistic effects among the three subsystems,a coupling zoning model for integrated urban-rural water supply was constructed.[Results](1)The coupling coordination degree of each district and county ranged from 0.245 to 0.877.The coupling coordination degree intervals for the urban pipeline extension mode,regional pipeline intercon-nection mode,regional integrated block mode,and single-village upgraded point mode were[0.8,1],[0.75,0.80),[0.60,0.75),and(0,0.60),respectively.(2)All eight districts and counties under the urban pipeline extension mode were located in the main metropolitan area.These areas had relatively flat terrain and high popula-tion density,which was conducive to the construction of large-scale water supply projects and pipeline networks.Eight districts and counties under the regional pipeline interconnection mode were mostly located in the main metro-politan area,with a small number in the Three Gorges Reservoir area of northeastern Chongqing.These areas had a-bundant but unevenly distributed water resources.Interconnection of regional main water supply pipelines could a-chieve regional water resource complementarity and pipeline network connectivity.Five districts and counties under the regional integrated block mode were distributed in the main metropolitan area and the Three Gorges Reservoir area of northeastern Chongqing.In northeastern Chongqing,small reservoirs and ponds served as the main water sources,and the scale of water supply projects was small but had integration potential.Integrating surrounding small water supply projects could enhance regional water supply security.Thirteen districts and counties under the single-village upgraded point mode were mainly located in the Three Gorges Reservoir area of northeastern Chongqing and the Wuling Mountain area of southeastern Chongqing.Due to the large terrain relief in mountainous areas,water supply projects were significantly constrained by terrain.Rural areas were remote with dispersed population,making it difficult for large-scale water supply to cover them.This mode was suitable for point-based water supply targeting individual villages.[Conclusion](1)Four development modes suitable for integrated urban-rural water supply in Chongqing City are proposed,namely the urban pipeline extension mode,regional pipeline interconnection mode,regional integrated block mode,and single-village upgraded point mode.(2)According to the zoning results,the urban pipeline extension mode relies on its high urbanization rate to achieve full water supply coverage.The regional pipeline interconnection mode addresses elevation difference issues through interconnected pipeline networks,the regional integrated block mode forms intensive water supply units by integrating small water sources,and the single-village upgraded point mode solves drinking water problems in areas with complex terrain through decentralized wa-ter supply.The research findings provide technical support for the construction of integrated urban-rural water sup-ply in Chongqing City and are of significant importance for ensuring regional water supply security and promoting the high-quality development of the Chengdu-Chongqing Twin-City Economic Circle.
闫成;刘凤丽;范琳琳;石苗苗;王宇轩
长江科学院农业水利研究所,武汉 430010||长江科学院水利部长江中下游河湖治理与防洪重点实验室,武汉 430010长江科学院农业水利研究所,武汉 430010||长江科学院水利部长江中下游河湖治理与防洪重点实验室,武汉 430010长江科学院农业水利研究所,武汉 430010||长江科学院水利部长江中下游河湖治理与防洪重点实验室,武汉 430010长江科学院农业水利研究所,武汉 430010||长江科学院水利部长江中下游河湖治理与防洪重点实验室,武汉 430010昆明理工大学现代农业工程学院,昆明 650559
建筑与水利
城乡供水一体化供水分区耦合协调发展模式重庆市
integrated urban-rural water supplywater supply zoningcoupling coordinationdevelopment modeChongqing City
《长江科学院院报》 2026 (3)
28-35,8
重庆市技术创新与应用发展专项重点项目(CSTB2022TIAD-KPX0198)
评论