电工技术学报2025,Vol.40Issue(23):7532-7553,22.DOI:10.19595/j.cnki.1000-6753.tces.242075
融合减碳型多能源微网的城市能源系统环境-经济协调优化模型
An Environment-Economic Coordination Optimization Model for Urban Energy Systems Integrating Carbon-Reducing Multi-Energy Microgrids
摘要
Abstract
As urbanization progresses,the significant amount of waste generated by urban residents,as well as the production and consumption processes of various types of energy,has led to severe environmental pollution.Moreover,the compatibility and coordination requirements between environmental protection facilities and energy systems in cities are also continuously increasing.Therefore,it is particularly important to establish a multi-energy microgrid or multi-energy system with the capability of pollution reduction and carbon emission reduction.Such systems are required to meet the needs of urban residents,including electricity,gas,heat,and cold,and to reduce carbon emissions and mitigate the environmental impact of pollutants.This paper explores the feasibility of using urban sewage and waste as energy sources,investigates how to utilize pollutants such as domestic sewage and waste for energy supply,and constructs a carbon-reducing multi-energy microgrid(CRMEM)incorporating waste and sewage energy supply. Firstly,the coordination characteristics between the energy supply of multi-energy microgrids equipped with waste pyrolysis furnaces,sewage-source heat pumps,and other devices,and the urban environmental protection needs are studied.A model of the CRMEM incorporating sewage and waste energy supply,along with its topological structure,is established.A cluster model of urban CRMEM is further established.Then,to analyze the effects of CRMEM in multi-energy supply and environmental restoration,a comprehensive energy-environment benefit quantification model for CRMEM is established.Quantitative analysis is carried out from eight aspects of the cluster system:primary energy saving efficiency,renewable energy utilization rate,energy consumption per unit area during heating/cooling,pollutant reduction,sewage reduction rate,landfill ratio,pollutant concentration in water,and soil organic matter content.Then,with the objectives of maximizing primary energy saving rate,maximizing pollutant reduction,and minimizing total system operating cost,the comprehensive energy-environment benefits optimization model of the urban multi-energy system is established.The proposed method is solved using an NSGA-Ⅱ algorithm with local search.Finally,based on actual operational data from a multi-energy system in a northeastern region,as well as data from sewage and waste treatment plants,a coordinated simulation model for urban CRMEM cluster is established.The supply and demand balance of electricity,natural gas,heat,and cold in each microgrid in CRMEM cluster is simulated and analyzed,and the environmental governance and restoration benefits of urban multi-energy system are evaluated.The analysis reveals that while meeting the energy needs of residents,the primary energy saving rate of CRMEM is 37.96%,the amount of alternative standard coal per unit area is 4.985 kg/m2,and the energy consumption per unit area during heating is 13.8605 W/m2.CRMEM has a significant ability to reduce pollutant. The following conclusions are drawn:(1)Compared with conventional urban energy supply systems,CRMEM has higher energy utilization and energy saving capabilities.(2)CRMEM can utilize energy conversion devices to extract'residual energy'from sewage and waste,meeting the electricity,gas,heat,and cold needs of urban residents while simultaneously treating domestic sewage and waste generated by residents,thereby contributing to the restoration of urban living environments.(3)CRMEM can reuse treated reclaimed water and sludge,generating revenue and optimizing the costs of energy supply and emission reduction in the CRMEM.关键词
减碳型多能源微网/环境治理机能/减污降碳能力/综合效益/NSGA-Ⅱ算法Key words
Carbon-reducing multi-energy microgrid/environmental governance function/pollution and carbon reduction capacity/comprehensive benefits/NSGA-Ⅱ algorithm分类
信息技术与安全科学引用本文复制引用
刘硕,滕云,陈哲..融合减碳型多能源微网的城市能源系统环境-经济协调优化模型[J].电工技术学报,2025,40(23):7532-7553,22.基金项目
国家重点研发计划项目(2017YFB0902100)和辽宁省科学技术计划"揭榜挂帅(技术攻关类)"项目(2023JH1/10400050)资助. (2017YFB0902100)
