基于PSD-BPA与PSSE的电力系统集成仿真平台
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摘要
针对电网规模不断增大以及结构的日益复杂、电力电子设备的大量应用、电力市场交易变革的不断深入给电力系统仿真计算带来的挑战,研究开发了一种基于PSD-BPA与PSSE两种仿真工具的电力系统集成仿真平台。该集成仿真平台主要包含数据管理和集成仿真两部分,建立了一体化数据共享为目标的集成仿真系统结构和功能结构,描绘了平台工作流、实现方案和功能特点;通过PSSE用户自定义接口实现了电力系统常规设备动态模型转换和通用化建模,形成集成仿真平台统一的系统仿真模型,实现了集成仿真。结合集成仿真平台维护的某区域电网统一模型数据,发挥两种软件各自在数据基础和自定义模型方面的优势,验证了集成仿真平台针对新型设备自定义建模仿真的可用性和灵活性。
This paper studies an integrated power system simulation platform based on PSD-BPA and PSSE two kinds of simulation tools,in response to the increasing scale of power grids and the increasing complexity of structures,the large-scale application of power electronic equipment,and the continuous in-depth transformation of power market transactions to the challenge of power system simulation and calculation. The integrated simulation platform mainly includes data management and integrated simulation. It establishes the integrated simulation system structure and functional structure with integrated data sharing as the goal,and describes the platform workflow,implementation scheme,and features. Through the PSSE user-defined interface,the dynamic model conversion and generalized modeling of conventional equipment in the power system are realized,a unified system simulation model of the integrated simulation platform is formed,and integrated simulation is realized. Combined with the unified model data of a certain regional power grid maintained by the integrated simulation platform,the advantages of the two software's in their respective data foundations and custom models are exploited,which verifies the availability and flexibility of the integrated simulation platform for custom modeling and simulation of newtypes of equipment.
This paper studies an integrated power system simulation platform based on PSD-BPA and PSSE two kinds of simulation tools,in response to the increasing scale of power grids and the increasing complexity of structures,the large-scale application of power electronic equipment,and the continuous in-depth transformation of power market transactions to the challenge of power system simulation and calculation. The integrated simulation platform mainly includes data management and integrated simulation. It establishes the integrated simulation system structure and functional structure with integrated data sharing as the goal,and describes the platform workflow,implementation scheme,and features. Through the PSSE user-defined interface,the dynamic model conversion and generalized modeling of conventional equipment in the power system are realized,a unified system simulation model of the integrated simulation platform is formed,and integrated simulation is realized. Combined with the unified model data of a certain regional power grid maintained by the integrated simulation platform,the advantages of the two software's in their respective data foundations and custom models are exploited,which verifies the availability and flexibility of the integrated simulation platform for custom modeling and simulation of newtypes of equipment.
引文
[1]李亚楼,张星,李勇杰,等.交直流混联大电网仿真技术现状及面临挑战[J].电力建设,2015,36(12):1-6.LI Yalou,ZHANG Xing,LI Yongjie,et al.Present situation and challenges of AC/DC hybrid large power grid simulation technology[J].Electric Power Construction,2015,36(12):1-6.
[2]田芳,黄彦浩,史东宇,等.电力系统仿真分析技术的发展趋势[J].中国电机工程学报,2014,34(13):2151-2163.TIAN Fang,HUANG Yanhao,SHI Dongyu,et al.Developing trend of power system simulation and analysis technology[J].Proceedings of the CSEE,2014,34(13):2151-2163.
[3]孙峰.电力系统仿真软件的比较研究[D].北京:华北电力大学,2006.
[4]王武双,向荣.PSSE自定义功能在电力系统暂态分析中的应用[J].电力学报,2009,24(5):380-383.WANG Wushuang,XIANG Rong.PSS/E custom functions applications in power system transient analysis[J].Journal of E-lectric Power,2009,24(5):380-383.
[5]骆玲,文劲宇.PSSE用户自定义功能在励磁系统建模中的应用研究[J].电气应用,2007,26(8):21-25.LUO Ling,WEN Jingyu.PSS/E users application of excitation system modeling custom functions[J].Electrical Application,2007,26(8):21-25.
[6]陈宇川,朱林,蔡泽祥,等.PSSE中多端直流系统自定义建模研究[J].中国电力与科学技术学报,2016,31(1):78-83.CHEN Yuchuan,ZHU Lin,CAI Zexiang,et al.Research on user-defined MTDC system modeling in PSS/E[J].Journal of E-lectric Power Science and Technology,2016,31(1):78-83.
[7]郑志伟,邹卫美,裘微江,等.电力系统规划仿真平台设计与实现[J].电力信息与通信技术,2016,14(8):14-21.ZHENG Zhiwei,ZOU Weimei,QIU Weijiang,et al.Design and implementation of simulation platform for electric power system planning[J].Power Information and Communication Technology,2016,14(8):14-21.
[8]金小明,吴鸿亮,周保荣,等.电网规划运行数据库与集成管理平台的设计与实现[J].电力系统保护与控制,2015,42(15):126-131.JIN Xiaoming,WU Hongliang,ZHOU Baorong,et al.Design and implementation of integrated database management platform for power grid planning and operation[J].Power System Protection and Control,2015,42(15):126-131.
[9]芜湖大学科技园发展有限公司.面向电力系统仿真的多用户仿真数据管理平台:CN201310498014.6[P].2014-3-12.
[10]施恩洁,孙健,郭锐锋,等.基于多源异构数据的一体化仿真平台[J].电气应用,2013(S1):352-355.SHI Enjie,SUN Jian,GUO Ruifeng,et al.Integrated simulation platform based on multi-source heterogeneous data[J].E-lectrical application,2013(S1):352-355.
[11]何晓峰.地区电网仿真平台的建设与实施[J].大众用电,2008(11):19-20.HE Xiaofeng.Construction and implementation of regional power grid simulation platform[J].Power Consumption,2008(11):19-20.
[12]徐政,徐琼璟,任雷,等.BPA与PSASP及PSS/E机电暂态仿真的负荷模型比较[J].南方电网技术,2008,2(5):32-35.XU Zheng,XU Qiongjing,REN Lei,et al.Comparison of load models for electromechanical transient simulation in BPA,PSASP and PSS/E[J].Southern Power System Technology,2008,2(5):32-35.
[13]韩松,徐政,吴小辰,等.PSD-BPA与PSS/E暂态稳定数学模型比较[J].南方电网技术,2010,4(3):67-71.HAN Song,XU Zheng,WU Xiaochen,et al.PSD-BPA compared with PSS/E transient stability mathematical model[J].Southern Power System Technology,2010,4(3):67-71.
[14]杨茹.BPA-PSSE模型对比计算研究及数据接口程序开发[D].北京:华北电力大学,2006.
[15]方军.PSSE的发电机组励磁系统建模和电力系统分析[D].福州:福州大学,2004.
[16]国建宝,李兴源,李宽,等.电力系统BPA与PSSE潮流数据转换研究[J].电工电能新技术,2015,34(5):63-69.GUO Jianbao,LI Xingyuan,LI Kuan,et al.Power system BPA and PSSE tidal current data conversion study[J].Advanced Technology of Electrical Engineering and Energy,2015,34(5):63-69.
[17]LIU K,LIU K,WANG Q,et al.Date conversion in BPA and PSSE based on China Southern Power Grid[J].Journal of Energy and Power Engineering,2013,5(4B):1421-1424.
[18]韩富春,闫根弟.暂态稳定数字仿真中发电机数学模型的研究[J].太原理工大学学报,2005,36(1):75-78.HAN Fuchun,YAN Gendi.Study on transient stability digital simulation generator model[J].Journal of Taiyuan University of Technology,2005,36(1):75-78.
[19]YU Hao,LIANG Xiaopeng,GAO Chong,et al.Integration of PSSE web application with power system simulation platform[J].Journal of Mechanics Engineering and Automation,2017,7(5):262-268.
[20]龚贤夫,覃芸,段瑶,等.广东沿海城市防风保底电网规划方法[J].广东电力,2017,30(7):7-11.GONG Xianfu,QIN Yun,DUAN Yao,et al.Differential power grid planning method for typhoon protection in Guangdong coastal cities[J].Guangdong Electric Power,2017,30(7):7-11.
[21]Working Group B4 55 of CIGRE.HVDC connection of offshore wind power plants[R].Paris:CIGRE,2015.
[2]田芳,黄彦浩,史东宇,等.电力系统仿真分析技术的发展趋势[J].中国电机工程学报,2014,34(13):2151-2163.TIAN Fang,HUANG Yanhao,SHI Dongyu,et al.Developing trend of power system simulation and analysis technology[J].Proceedings of the CSEE,2014,34(13):2151-2163.
[3]孙峰.电力系统仿真软件的比较研究[D].北京:华北电力大学,2006.
[4]王武双,向荣.PSSE自定义功能在电力系统暂态分析中的应用[J].电力学报,2009,24(5):380-383.WANG Wushuang,XIANG Rong.PSS/E custom functions applications in power system transient analysis[J].Journal of E-lectric Power,2009,24(5):380-383.
[5]骆玲,文劲宇.PSSE用户自定义功能在励磁系统建模中的应用研究[J].电气应用,2007,26(8):21-25.LUO Ling,WEN Jingyu.PSS/E users application of excitation system modeling custom functions[J].Electrical Application,2007,26(8):21-25.
[6]陈宇川,朱林,蔡泽祥,等.PSSE中多端直流系统自定义建模研究[J].中国电力与科学技术学报,2016,31(1):78-83.CHEN Yuchuan,ZHU Lin,CAI Zexiang,et al.Research on user-defined MTDC system modeling in PSS/E[J].Journal of E-lectric Power Science and Technology,2016,31(1):78-83.
[7]郑志伟,邹卫美,裘微江,等.电力系统规划仿真平台设计与实现[J].电力信息与通信技术,2016,14(8):14-21.ZHENG Zhiwei,ZOU Weimei,QIU Weijiang,et al.Design and implementation of simulation platform for electric power system planning[J].Power Information and Communication Technology,2016,14(8):14-21.
[8]金小明,吴鸿亮,周保荣,等.电网规划运行数据库与集成管理平台的设计与实现[J].电力系统保护与控制,2015,42(15):126-131.JIN Xiaoming,WU Hongliang,ZHOU Baorong,et al.Design and implementation of integrated database management platform for power grid planning and operation[J].Power System Protection and Control,2015,42(15):126-131.
[9]芜湖大学科技园发展有限公司.面向电力系统仿真的多用户仿真数据管理平台:CN201310498014.6[P].2014-3-12.
[10]施恩洁,孙健,郭锐锋,等.基于多源异构数据的一体化仿真平台[J].电气应用,2013(S1):352-355.SHI Enjie,SUN Jian,GUO Ruifeng,et al.Integrated simulation platform based on multi-source heterogeneous data[J].E-lectrical application,2013(S1):352-355.
[11]何晓峰.地区电网仿真平台的建设与实施[J].大众用电,2008(11):19-20.HE Xiaofeng.Construction and implementation of regional power grid simulation platform[J].Power Consumption,2008(11):19-20.
[12]徐政,徐琼璟,任雷,等.BPA与PSASP及PSS/E机电暂态仿真的负荷模型比较[J].南方电网技术,2008,2(5):32-35.XU Zheng,XU Qiongjing,REN Lei,et al.Comparison of load models for electromechanical transient simulation in BPA,PSASP and PSS/E[J].Southern Power System Technology,2008,2(5):32-35.
[13]韩松,徐政,吴小辰,等.PSD-BPA与PSS/E暂态稳定数学模型比较[J].南方电网技术,2010,4(3):67-71.HAN Song,XU Zheng,WU Xiaochen,et al.PSD-BPA compared with PSS/E transient stability mathematical model[J].Southern Power System Technology,2010,4(3):67-71.
[14]杨茹.BPA-PSSE模型对比计算研究及数据接口程序开发[D].北京:华北电力大学,2006.
[15]方军.PSSE的发电机组励磁系统建模和电力系统分析[D].福州:福州大学,2004.
[16]国建宝,李兴源,李宽,等.电力系统BPA与PSSE潮流数据转换研究[J].电工电能新技术,2015,34(5):63-69.GUO Jianbao,LI Xingyuan,LI Kuan,et al.Power system BPA and PSSE tidal current data conversion study[J].Advanced Technology of Electrical Engineering and Energy,2015,34(5):63-69.
[17]LIU K,LIU K,WANG Q,et al.Date conversion in BPA and PSSE based on China Southern Power Grid[J].Journal of Energy and Power Engineering,2013,5(4B):1421-1424.
[18]韩富春,闫根弟.暂态稳定数字仿真中发电机数学模型的研究[J].太原理工大学学报,2005,36(1):75-78.HAN Fuchun,YAN Gendi.Study on transient stability digital simulation generator model[J].Journal of Taiyuan University of Technology,2005,36(1):75-78.
[19]YU Hao,LIANG Xiaopeng,GAO Chong,et al.Integration of PSSE web application with power system simulation platform[J].Journal of Mechanics Engineering and Automation,2017,7(5):262-268.
[20]龚贤夫,覃芸,段瑶,等.广东沿海城市防风保底电网规划方法[J].广东电力,2017,30(7):7-11.GONG Xianfu,QIN Yun,DUAN Yao,et al.Differential power grid planning method for typhoon protection in Guangdong coastal cities[J].Guangdong Electric Power,2017,30(7):7-11.
[21]Working Group B4 55 of CIGRE.HVDC connection of offshore wind power plants[R].Paris:CIGRE,2015.