ADPSS与电网调控系统(D5000)联合仿真方法与实现OA
Co-simulation method and implementation of ADPSS and power grid dispatching and control systems(D5000)
为满足新型在线软件测试、电网状态展示、人员培训等需求,提出 ADPSS 和 D5000 系统联合仿真的技术方案,构建了类似于真实电力系统环境的大电网安全运行与智能调控仿真平台.首先,针对实际大电网数据,研发了适用于联合仿真系统的自动化建模方法和 ADPSS-CIM/E 模型转换工具.其次,设计开发了虚拟远程终端设备(remote terminal unit,RTU)模拟装置生成RTU复合模型,并进行规约转换,从而模拟RTU通信.再次,研究了ADPSS仿真过程中的对外交互方法,研发核心计算程序中的"四遥"(遥测、遥信、遥控、遥调)响应模块.然后,开发数据接口程序保证仿真效率和异构系统的数据兼容性,通过多计算进程和接口进程的并行,实现了万节点级电网的带调控实时仿真.最后,基于联合仿真平台,完成了12 000节点在线电网数据的联合仿真系统建模,开展"四遥"交互模拟和状态估计测试,结果验证了ADPSS和D5000闭环联合仿真的有效性.
To meet the needs of emerging applications such as online software testing,power grid state visualization,and personnel training,a co-simulation scheme for ADPSS and the D5000 system is proposed,establishing a large-scale power grid simulation platform that closely resembles a real power system environment for security operation and intelligent dispatching.First,based on actual large-scale power grid data,an automated modeling method and the ADPSS-CIM/E model conversion tool suitable for the co-simulation system are developed.Second,a virtual remote terminal unit(RTU)simulation device is designed and developed to generate composite RTU models,along with protocol conversion to emulate RTU communication.Third,external interaction methods during the ADPSS simulation process are studied,and a"four-remote"(telemetering,teleindication,telecommand,teleadjusting)response module is developed within the core computational program.Then,data interface programs are developed to ensure simulation efficiency and data compatibility across heterogeneous systems.Through parallel execution of multiple computation and interface processes,real-time regulation of a power grid with tens thousands of nodes and integrated dispatching/control is achieved.Finally,based on the co-simulation platform,a 12 000-node online power grid model is constructed,and tests on"four-remote"interaction simulation and state estimation are conducted.The results validate the effectiveness of the closed-loop co-simulation of ADPSS and the D5000 system.
徐树文;徐得超;王跃;吴国辉;田鹏飞
电网安全全国重点实验室(中国电力科学研究院有限公司),北京 100192电网安全全国重点实验室(中国电力科学研究院有限公司),北京 100192电网安全全国重点实验室(中国电力科学研究院有限公司),北京 100192电网安全全国重点实验室(中国电力科学研究院有限公司),北京 100192电网安全全国重点实验室(中国电力科学研究院有限公司),北京 100192
ADPSSD5000联合仿真虚拟RTU"四遥"模拟
ADPSSD5000co-simulationvirtual RTU"four-remote"simulation
《电力系统保护与控制》 2026 (11)
105-114,10
This work is supported by the National Natural Science Foundation of China(No.52437006). 国家自然科学基金项目资助(52437006)
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