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作 者:屈鲁 欧阳斌 袁志昌[1] 张树卿[1] 曾嵘[1] QU Lu;OUYANG Bin;YUAN Zhichang;ZHANG Shuqing;ZENG Rong(State Key Lab of Power Systems(Department of Electrical Engineering,Tsinghua University),Haidian District,Beijing 100084,China)
机构地区:[1]电力系统及发电设备控制和仿真国家重点实验室(清华大学电机工程与应用电子技术系),北京市海淀区100084
出 处:《发电技术》2020年第3期237-244,共8页Power Generation Technology
基 金:国家重点研发计划项目(2018YFB0905105)。
摘 要:综合能源系统(integrated energy system,IES)涵盖能源形式多样,涉及运行模式复杂,包含控制设备和耦合环节丰富,给其稳态建模和稳态潮流计算带来了挑战。为了获取综合能源系统中热力子系统的稳态特性,给出了典型综合能源系统的拓扑架构;分别建立了电力子系统、热力子系统、冷力子系统和分布式能源站的稳态模型,进而建立了混合潮流模型,并利用Newton-Raphson算法进行了混合潮流求解;分析了热力子系统的关键技术参数(包括源节点的供水温度、负荷节点的出水温度、热网管道的长度和直径、热负荷功率)变化对综合能源系统稳态潮流的影响。分析结果可支撑综合能源系统的规划、设计及优化运行。The integrated energy system(IES)includes various energy forms,complex operation modes,abundant control equipment and coupling links,which brings challenges to its steady-state modeling and steady-state power flow calculation.In order to obtain the steady-state characteristics of the thermal subsystem in the IES,the topological structure of the typical IES was provided;the steady-state models of the power subsystem,the thermal subsystem,the cold subsystem and the distributed energy station were established respectively,and then the hybrid power flow model was established,and the Newton-Raphson algorithm was used to solve the hybrid power flow;the influence of the key technical parameters(including the water supply temperature of the source node,the water outlet temperature of the load node,the length and diameter of the heat network pipe,and the heat load power)on the steady-state power flow of the IES was analyzed.The analysis results can support the planning,design and optimal operation of the IES.
关 键 词:综合能源系统(IES) 热力子系统 稳态建模 稳态潮流
分 类 号:TM721[电气工程—电力系统及自动化]
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