Construction of smart water-saving platform for urban power plants based on digital twin technology
Urban power plants occupy a core position in the urban energy supply system.However,extensive water use management is easy to produce significant losses of water resources and environmental challenges.This makes them a key monitoring target of high water-consuming industrial sectors in cities,urgently requiring innovative breakthroughs in water-saving technologies and management models.Therefore,focusing on the specific object of urban power plants,this paper adopts system construction and case analysis,incorporating digital twin technology to innovatively design a smart water-saving platform.The smart water-saving platform employs advanced data collection and processing,virtual modeling and simulation,optimization decision-making and support,integrated enhancement,and expansion techniques,thoroughly revolutionizing the traditional water management model of urban power plants.Taking the Waigaoqiao Power Plant in Shanghai as an example,the implementation of the smart water-saving platform has achieved significant effects:greatly enhancing water management efficiency,effectively reducing water costs,optimizing the structure of the water supply network,and realizing the intelligent management of the entire lifecycle of facilities,thereby vigorously promoting resource conservation and environmental sustainability.The smart water-saving platform case not only validates the transformative power of digital twin technology in the urban water-saving field but also demonstrates its broad application value and innovation potential,setting a benchmark for smart water-saving practices in high water-consuming industrial sectors.
digital twinurban power plantssmart water-saving platform
万方数据
维普
