LIAO Wenhao 1LIN Danbei 1GUO Xiaobin 1XU Junge2
作者信息
- 1. Longyan Water Development Tap Water Co.,Ltd.,Longyan 364000,China
- 2. College of Civil Engineering,Fuzhou University,Fuzhou 350108,China
- 折叠
摘要
Abstract
[Objective]With the advancement of urban smart,water supply networks are gradually integrating modern technologies for leakage control.However,due to the lack of an interaction platform among modern technologies,the multi-source data they generate cannot be cross-linked,thus causing the"system island"problem and hindering the pace of leakage control in water supply networks.In view of the current predicament of the intelligent water supply network,it is urgent to build a unified management platform to improve the management level of the water supply network.[Methods]This paper focuses on the progress of intelligent water supply networks,analyzes the characteristics and shortcomings of modern technologies in the application of water supply networks,and addresses the bottlenecks in network management levels and the lack of interaction among technologies.It emphasizes the construction method of a full life cycle management platform for urban water supply networks and explores the role of massive data.[Result]Through comprehensive comparative analysis,the data standards and database for the entire life cycle of pipelines established by the water supply network's full life cycle management platform can fully tap into the massive data information generated during the platform's management process.By applying method such as district metering and fuzzy mathematics,it can turn the passive into the active,achieving emergency decision-making,big data analysis decision-making,real-time monitoring of pipeline network status,and visual management,etc.Based on technologies such as geographic information system(GIS)and building information modeling(BIM),the full-cycle information interaction of the water supply network is realized.Relying on the smart platform,a water enterprise in a certain city in east China had saved over 285 million tons of water and 143 million yuan in costs.[Conclusion]Constructing of a full life cycle management platform for water supply networks can organically integrate modern technologies,uniformly manage the entire process of network planning,design,construction,operation and maintenance,and dismantling,and provide scientific guidance for the intelligent water supply network.关键词
智慧供水管网/全生命周期/一体化平台/管网漏损/大数据Key words
smart water supply networks/full life cycle/integrated platform/pipelines loss and leakage/big data分类
建筑与水利
