首页|期刊导航|净水技术|福州数智化污水提质增效"1346"治理体系构建与实践

福州数智化污水提质增效"1346"治理体系构建与实践OA

Construction and Practice of Fuzhou's Digital-Intelligent"1346"Governance System for Wastewater Quality and Efficiency Upgrading

中文摘要英文摘要

[目的]为适应新时期污水治理需求,以及推进区域水务一体化的发展,污水治理急需以数智化为基础,建设可持续发展的水务智慧化管理体系.实现从源头到末端的全流程精细化管控,推动污水治理体系向高效协同、主动防控、智慧决策的方向发展,进而为城市水环境持续改善与水务行业现代化提供坚实基础.[方法]本文以福州市为研究对象,构建覆盖排水系统全产业链的数智化污水提质增效"1346"治理体系.该体系以排水管网地理信息系统(GIS)数字底座为基础,整合液位、水质、污水量、用水量4类核心数据,形成多维度、实时更新的数据资源池.围绕这些数据,构建数据分析、问题处置、客户服务3大核心业务能力,支撑从监测预警到问题诊断、调度指挥、闭环处置与公众互动的全过程业务闭环.为保障体系长效运行,配套GIS数据动态更新、水平衡分析研判、动态预警阈值管理、污水处理厂间调度、截污系统动态管理、工作考核6项机制,形成"看水一张图、治水一个脑、管水一平台、服务一张网"的排水运营管理全业务链治理体系.[结果]应用该体系后,数据维护效率提升20%、人工摸排成本降低40%、高效处置8 718项群众诉求、办结率为99.6%.[结论]该体系实现了污水治理从"被动应对"向"主动防控"的转变,为同类城市污水提质增效提供了可推广的技术框架与实施路径.

[Objective]To meet the demands of wastewater treatment in the new era and promote the development of regional water affairs integration,wastewater treatment urgently needs to build a sustainable and intelligent water affairs management system based on digitalization and intelligence.This facilitates refined,full-process management from source to end,driving the evolution of the wastewater treatment system toward high-efficiency collaboration,proactive prevention and control,and intelligent decision-making.This evolution lays a solid foundation for the continuous improvement of the urban water environment and the modernization of the water industry.[Methods]Focusing on Fuzhou City,an intelligent governance system known as the"1346"framework was developed to enhance wastewater quality and efficiency across the entire drainage industry chain in this paper.This system was built on a geographic information system(GIS)-based digital foundation for drainage networks,integrating four types of core data(water height,water quality,wastewater volume,and water consumption)to form a multi-dimensional,real-time updated data resource pool.Centered around this data,three key operational capabilities were formed(data analysis,problem resolution,and customer service)to support the entire process of business closure from monitoring and early warning to problem diagnosis,scheduling and command,closed-loop disposal,and public interaction.To ensure the long-term operation,it was supported by six mechanisms:dynamic GIS updates,water balance analysis,adaptive early-warning thresholds,inter-WWTP scheduling,dynamic management of pollution interception systems,and performance evaluation.This integrated approach enabled"one map for water visibility,one brain for water treatment,one platform for water management,and one network for water services.[Results]After applying this system,the efficiency of data maintenance had increased by 20%,the cost of manual investigation had decreased by 40%,and 8 718 public demands had been efficiently handled,with a resolution rate of 99.6%.[Conclusion]The system shifts wastewater management from a reactive to a proactive paradigm,offering a scalable technical framework and implementation pathway for quality and efficiency upgrading of similar cities.

赖茂顺;吴良洪;彭积都;戴锴妍;郑立杰;胡文涛

福州市城市排水有限公司,福建 福州 350001福州市城市排水有限公司,福建 福州 350001福州市城市排水有限公司,福建 福州 350001福州市城市排水有限公司,福建 福州 350001福州市城建数智科技有限公司,福建 福州 350011福州市城建数智科技有限公司,福建 福州 350011

建筑与水利

排水信息化提质增效"1346"治理体系分区治理预警处置

drainage informationizationquality and efficiency upgrading"1346"governance systemzoning managementearly warning and disposal

《净水技术》 2026 (3)

174-181,187,9

10.15890/j.cnki.jsjs.2026.03.018

评论