基于Ethernet技术的变电站综合自动化系统研究
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摘要
本文首先针对变电站中通信协议标准不一,数据传输速率低的问题,提出了一种基于以太网的分层分布式通信网络模型。在该模型中,应用层协议采用Modbus协议,传输层协议采用TCP协议,介质访问控制协议采用IEEE802.3标准,上位机通过轮询的方式对测量数据进行采集。由于Modbus和以太网协议均已成为事实上的工业标准,并被大多数厂商所接受,因此Modbus/TCP通信协议可以实现不同厂商设备的互联互通。其次,未来的变电站不仅要向调度中心传输测量数据,还要传输图形、语音、视频等信息,而传统的RTU模式只能传输一些简单数据,这已不能适应技术发展的要求。本文就此提出了一种基于Web的变电站远程监控系统。该系统采用浏览器/服务器结构,实现了通过IE浏览器查看变电站的各种图形和数据信息。该方法具有编程简单,客户端免维护等特点。另外,针对传统的变电站安全自动装置可靠性低的问题,本文利用可编程控制器实现了自动重合闸等功能。模拟试验结果表明,可编程控制器具有使用灵活,安全可靠等优点,可以替代传统的安全自动装置。最后设计了变电站操作票专家系统。该系统采用产生式知识表示法和框架知识表示法,通过在数据库中分别建立规则库、状态库、网络拓扑知识库和设备属性库来完整表述变电站的全部信息。本系统采用基于规则的正向推理作为推理策略,通过比较初始状态和目标状态的不同完成开票。本系统的应用将解决手工开票速度慢、易出错等问题。
First, a layered and distributed network model based on Ethernet is presented to solve following problems: there is no an uniform communication protocol applied in substation and the speed of data transmission is too slow. In the newly presented model, the application layer uses modbus protocol, the transmission layer uses TCP and the Media Access Control protocol uses IEEE802.3 standard. The monitoring computer collects measuring data by polling method. Modbus and Ethernet protocol have been the de facto standards in industry, and accepted by most companies, so the application of Mobus/TCP will make devices from different vendors to work properly together in the same network. Secondly, The future substation will transfer not only measuring data, but also information such as gragh, sound and video to the dispatching center. However, the traditional RTU mode can only transfer some simple information, it will not meet the requirements of the future substation. A web-based remote supervisory control system for substation is presented to solve this problem. The Browser/Server mode is applied in this system, various graph and data can be seen through Internet Explorer. The method has following advantages: simple in programming, maintenance-free for clients, etc. In addition, to improve the reliability of traditional automatic apparatuses, PLC is used to implement some functions such as automatic re-switch and automatic put-in of standby power source. The simulation test shows that PLC has advantages such as flexibility in programming ,safety and high reliability, it can replace traditional automatic apparatuses. At last, An expert system used to automatically generate switching sequences is also presented. Knowledge production and frame representation are used to build rule database, status database, topology database and property database, these databases can describe all information of a substation. Forward reasoning based on rules is used as reasoning strategy to generate switching sequences through comparing the differences between the initial status and the final status. The application of the system will solve folio whig problems: much time are consumed and easy to make mistakes when the operator writes switching sequences.
First, a layered and distributed network model based on Ethernet is presented to solve following problems: there is no an uniform communication protocol applied in substation and the speed of data transmission is too slow. In the newly presented model, the application layer uses modbus protocol, the transmission layer uses TCP and the Media Access Control protocol uses IEEE802.3 standard. The monitoring computer collects measuring data by polling method. Modbus and Ethernet protocol have been the de facto standards in industry, and accepted by most companies, so the application of Mobus/TCP will make devices from different vendors to work properly together in the same network. Secondly, The future substation will transfer not only measuring data, but also information such as gragh, sound and video to the dispatching center. However, the traditional RTU mode can only transfer some simple information, it will not meet the requirements of the future substation. A web-based remote supervisory control system for substation is presented to solve this problem. The Browser/Server mode is applied in this system, various graph and data can be seen through Internet Explorer. The method has following advantages: simple in programming, maintenance-free for clients, etc. In addition, to improve the reliability of traditional automatic apparatuses, PLC is used to implement some functions such as automatic re-switch and automatic put-in of standby power source. The simulation test shows that PLC has advantages such as flexibility in programming ,safety and high reliability, it can replace traditional automatic apparatuses. At last, An expert system used to automatically generate switching sequences is also presented. Knowledge production and frame representation are used to build rule database, status database, topology database and property database, these databases can describe all information of a substation. Forward reasoning based on rules is used as reasoning strategy to generate switching sequences through comparing the differences between the initial status and the final status. The application of the system will solve folio whig problems: much time are consumed and easy to make mistakes when the operator writes switching sequences.
引文
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[3] 金午桥.变电站自动化系统的发展策略.电力系统自动化,1999,23(22):58-62.
[4] 朱大新.数字化变电站综合自动化系统的发展.电工技术杂志,2001,4:20-22.
[5] 国家电力公司超高压变电站自动化技术考察组.西欧、北美超高压变电站自动化技术现状.电网技术,2002,26(4):55-61.
[6] Scott Bricker. Substation Automation Takes a Leap Forward. Transmission & Distribution World, 2001, 5.
[7] Chuck Newton. Developments in Substation Integration and Automation. Transmission & Distribution World, 2002, 3.
[8] Jeffrey J. Mackauer, Drew T. Davis. Integrated Substation Automation System Design. Transmission & Distribution World, 2000, 4.
[9] Tao Xiaonong, Xu Shiming, Zhao Jinrong, Sift Yuxiang. Substation Automation Takes Hold in China. Transmission & Distribution World, 1997, 6.
[10] Chuck Newton. Making the Case for Substation Automation. Transmission & Distribution World, 1996, 12.
[11] 马玲.变电站综合自动化系统的功能要求.四川电力技术,2000,1:32-33.
[12] 梁超梅,陈剑峰.无人值班变电站综合自动化的实施.电力自动化设备,2000,20(4):63-65.
[13] 李晋利,王晋原,崔卫红.浅谈变电站综合自动化.电力学报,2002,17(2):157-160.
[14] 徐立子.变电站自动化系统的分析和实施.电网技术,2000,24(5):25-29.
[15] 吴潮辉,胡玉兰,黄传荣.变电站自动化通信技术现状及发展.华北电力技术,2002,No.2:52-54.
[16] 沈国荣,黄健.2000年国际大电网会议系列报道—通信技术是变电站自动化的关键.电力系统自动化,2001,5:1-5.
[17] 景胜.陈家斌,李文霞,吴健.变电站综合自动化系统中的通信技术.供用电,2001,18(2):34-35
[18] Bill Koch. Substation Automation: Moving Toward Condition-based Maintenance. Electrical World, 2000, 214(2): 27-30.
[19] 韩富春.变电站综合自动化通信网络几种方式的研究.太原理工大学学报,2000,31(6): 694-696.
[20] Tor Skeie, Svein Johannessen, Christoph Brunner. Ethernet in Substation Automation. www.simula.no/photo/ethernetinsa_col.pdf
[21] Lewis Shaw. Protocol Choices for the Substation. Transmission & Distribution World, 2000, 5
[22] 杨晓东.现场总线技术在变电站综合自动化中的应用.广东电力,2002,15(4):45-47.
[23] 潘莹玉.现场总线技术及其在变电站综合自动化系统中的应用.电力系统通信,1998,1:30-35.
[24] 冯庆东,金晔,黄天戌.现场总线技术用于变电站自动化系统.东北电力技术,1999,11:16-18.
[25] 阳宪惠.现场总线技术及其应用.北京:清华大学出版社,1999.
[26] 郝晓弘,马向华.论现场总线控制系统.自动化与仪表,2001,16(3):1-5.
[27] 陈积明,王智,孙优贤.工业以太网的研究现状及展望.化工自动化及仪表,2001,28(6):22-25.
[28] 陈平,张安年.工业以太网在现场总线控制系统中的应用.洛阳工学院学报,2000,21(1):65-68.
[29] 沈钢,许晓鸣,何星,张卫东.新型工业以太网介质访问控制协议.上海交通大学学报,2002.36(4):521-525
[30] George Thomas. Looking Deeper Into Ethernet. The Industrial Ethemet Book, 2002, 1.
[31] Chris LeBlane. The Future of Industrial Networking and Connectivity. The Industrial Ethernet Book, 2002, 2.
[32] Benson Hougland. Ethemet Advantages at I/O Level. The Industrial Ethernet Book, 2002, 2.
[33] Jonas Berge. Ethernet in Process Control. The Industrial Ethemet Book, 2002, 3.
[34] Rob Hulsebos. Enter Ethernet, Exit Fieldbus. The Industrial Ethernet Book, 2002, 4.
[35] Adrian Bachofen, Daniel Koch. Integrating Industrial Ethernet and Internet. The Industrial Ethernet Book; 2002, 9.
[36] Chantal Polsonetti. Industrial Ethemet Protocols: The Next Battleground. The Industrial Ethernet Book, 2002, 12.
[37] Modbus application protocol V1.1, www.modbus.org/defanlt.htm.
[38] 刘瑞新,汪远征.Visual Basic程序设计教程.北京:机械工业出版社,2001.
[39] 邢东山,沈钧毅,夏华.基于Internet/Intranet的远程实时信息系统的构造.计算机工程与设计,2001,22(5):64-66.
[40] 杨家海,吴建平,李钟辉.基于Web的分布式网络实时监控系统的设计与实现.软件学报.1999,10(4):421-425.
[41] 李洪宝,曾文方,吴凌威.基于Web的实时信息发布系统的设计与实现.计算机应用,1999,19(12):54-56.
[42] 贾智平,李明.基于Internet的电力监控组态软件的关键技术.电力系统自动化,2002,26(16):62-65.
[43] 高卓,罗毅,涂光瑜.基于分布式对象技术的变电站远程维护系统.电力系统自动化,2002,26(16):66-70.
[44] 宋丽哲,郭剑毅,车文刚,余正涛.基于面向对象Java语言的过程趋势图设计.微机算机信息,2000,16(1):42-43.
[45] 李捷.杨志宏.Web技术在EMS系统中的应用.中国电力,2000,33(3):60-63.
[46] 习睿,张锦辉.Java技术在电力调度自动化中的应用前景.2001,14(6):45-49.
[47] 邵宇,徐俊峰,王渺.基于Web技术的电力数据查询系统设计.电测与仪表,2001,38(9):39-42.
[48] 伍志方.基于Web的生产实时监控系统的应用.工业控制计算机,2002,15(2):27-30.
[49] 马瑞,王琰.基于Web的实时监控图形系统.沈阳工业学院学报,2001,20(1):35-38.
[50] 鲍文,范轶,于达仁.基于Java的电厂实时信息系统.电站系统工程,2001,17(5):305-308.
[51] 杨红成,钱利民.基于Intranet可组态的电网调度自动化系统.电力自动化设备,2000,20(6):29-32.
[52] 吴成明,谭飞,胡翔勇,林天宝.基于Web的电网动态监视系统研究.三峡大学学报,2001,23(4):328-332.
[53] David M. Geary. Java 2图形设计.北京:机械工业出版社,2000.
[54] John. Q. Wang, 王黔平.Java模拟实体与网络应用编程.北京:人民邮电出版社,2001.
[55] 陈海山.深入Java Servlet网络编程.北京:清华大学出版社,2002.
[56] 刘敏.可编程控制器技术.北京:机械工业出版社,2001.
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