学海网 文档下载 文档下载导航
设为首页 | 加入收藏
搜索 请输入内容:  
 导航当前位置: 文档下载 > 所有分类 > 高等教育 > 工学 > 发输电可靠性测试系统IEEERTS96
免费下载此文档

发输电可靠性测试系统IEEERTS96

96年IEEE公布的新的发输电可靠性测试系统IEEE RTS96

1010

IEEE Transactions on Power Systems, Vol. 14, NO.3, August 1999

The IEEE Reliability Test System= 1996 A report prepared by the Reliability Test System Task Force Application of Probability Methods Subcommittee ABslRAcT This oeportdescribesanenhanced testsystem ( W W ) f o r MWIn bulk power system reliabilityevaluation studies. The value of the tost system is that it will permit comparative and benchmark studios to be perf0me-don new and existing reliability evaluation techniques. The test system was developed by modifying and updating the original IEEE RTS (referred to as R S 9 hereafter) to T7 reflect changes In evaluation methodologies and to overcome perceived deficiencies.

of the

The first version of the IEEE Reliability Test System ( T RS 79) was developed and published in 1979[ l] by the Application of Probability Methods (APM) Subcommittee of the Power System Englaeering Committee. It was developed to satisfy the need for a standardized data base to test and compare results from different power system reliabilityevaluation methodologies. As such,RTS-79 was designed to b@ reference system that contains the core data a and system parametersnecessary for composite reliabilityevaluation methods. It was recognized at that time that enhancementsto R S T 79 may be required for particular applications. However, it was felt that additional data needs could be supplemented by individual authors and or addressed in future extensions to the RTS-79. In 1986 a second version of the RTSwas developed (RTS 86) and published[2] with the objective of making the RTS more useful in assessing different reliability modeling and evaluation methodologies. Experience with RTS79 helped to Identify the critical additional data requirements and the need to Include the reliability Indices of the test system. RTS-86 expanded the data systam primarily relating to the generation system. The revision not only extended the number of generating units in the RTS-79 data base but also included unit derated states, unit scheduled mairJtenance, load forecast uncertainty and the effect of interconnection. The advantage of RTS-86 lies In the fact that it presented the system reliability indices derived through the use of rigorous solution techniques without any approximations in the evaluation process. These exact indices serve to compare with resurts obtained from other methods. Since the publication of RTS-79, several authors have reported the results of their research in the IEEE Journals and many international journals using this system. Several changes in the electric utility industry have taken place since the publication of RTS79, e.g. transmission access, emission caps, etc. These changes along with certain perceived enhancements to RTS-79motivated this task force to suggest a multi-area RTSincorporating additional data. P. Albrecht, R Allan, M. Bhavaraju, R Billinton, 0. Chen, C. Fong, S. Haddad, S.Kuruganty, W. U, R. Mukerji, D. Patton, N. Rau, D. Reppen, k

Schneider, M. Shaliidehpour. C. Singh. See Biographies for affiliations.

-

It should be noted that In developing and adopting the various parameters for RTS-96, there was no Intention to develop a test s s e which was representativeofany specific o typical power ytm r system. Forcing such a requirement on RTs-98 would result in a system with less universalcharacteristicsand therefore would be less useful as a reference for testing the impact of different evdraation techniques on diveme applications and technologies. Ofbe of the Important requirements of a good test system is that it should represent, as much as possible, all the different technologies and configurations that could be encountered on any system. RTs96 therefore has to be a hybrid and atypical system.

SYslEMTOPOUXY The topology for RTS-79 is shown in Figure 1 and is labeled 'kea A Si' the demand for methodologles that can analyze multi-area power systems has been Increasing lately due to increases in interregional transactions and advances in available computing power, the task force dedded to develop a multi-area reliabilitytest system by linking various single RTS79 areas. Figure 2 shows a two-area system developed by merging two single areas 'Area A' and 'Area B' through three interconnections. As shown the two areas are interconnected by the following new Interconnections: 0 51 mile 230 kV line connecting bus# 123 and bus# 217 0 52 mile 230 kV line connecting bus# 113 and bus# 215 0 42 mile 138 kV line connecting bus# 107 and bus# 203.

-

-

*Cu-Chairmen: C. Grigg and P.Wong;

38 kV

96 WM 326-9 PWRS .4 paper recommended and approved by the IEEE Power System Engineering Committee of the IEEE Power Engineering Society for presentation at the 1996 IEEFYPES Winter Meeting, January 2125, 1996, Baltimore, MD. Manuscript submitted August 1, 1995; made avai!able for printing January 15, 1996.

Figure 1 IEEE One Area RTS-96 0885-8950/99/$10.00 0 1996 IEEE

-

发输电可靠性测试系统IEEERTS96

第1页

免费下载Word文档免费下载:发输电可靠性测试系统IEEERTS96

(下载1-11页,共11页)

我要评论

相关文档

  • 发输电可靠性测试系统IEEERTS-79

    发输电可靠性测试系统IEEERTS-79 79年IEEE发布的发输电可靠性测试系统,很多人在找,现在贡献出来,里面有完整的数据资料。。。79年IEEE发布的发输电可靠性测试系统...

  • 一种新的发输电系统可靠性试验系统

    一种新的发输电系统可靠性试验系统_专业资料。论述了建立发输电系统可靠性 试验系统的必要性。介绍了国际上2个著名的测试系统IEEE-RTS 79及IEEE-RTS 96。提出了...

  • 计及风电场的发输配电系统可靠性评估

    该模型考虑了风速的随机性和风电机组的 强迫停运,将风电场可靠性模型与发输电...本文编写Matlab 程序实现序贯蒙特卡罗仿真,并对 IEEE-RBTS[18] 可靠性测试系统...

  • 含风电场的发输电组合系统可靠性评估

    2010 含风电场的发输电组合系统可靠性评估姜 文 ,严正 (上海交通大学 电子...算例采用 IEEE-RTS 测试系统,利用可靠性指标 缺负荷概率 LOLP、电量不足期望 ...

  • 含风电场的发输电系统可靠性评估

    风电场可靠性、远程监测、运...利用 Matlab 7 编写了相应程序,对引 入该模型的 IEEE-RTS79 系统进行可靠性...

  • 电力系统可靠性分析综述

    近年来,国内外的高校、研究机构和 电力部门已相继研制了各种发输电可靠性 分析...BESREP软件【91对IEEERTS79测试系统进行了安全性评 估,结果表明算法均有效、...

  • 电力系统及其发输电组合系统可靠性评估

    电力系统及其发输电组合系统可靠性评估谢日 晔文 ( 四川电力试验研究院 ,四川成都 610072) 摘 : 详细介绍了可靠性 、要 电力系统可靠性基本名词术语以及电力系统...

  • 发输电系统可靠性中的充裕性评估课堂笔记3

    发输电系统可靠性中的充裕性评估课堂笔记3_工学_高等...3. 1 对 IEEE - RTS 表 的模拟结果说明,在总...电力系统元件可靠性基础数据库;③建立可靠性测试系统...

  • 【论文】改进的发输电系统可靠性评估方法

    改进的发输电系统可靠性评估方法_专业资料。针对组合系统可靠性评估中计算费用过高...基于该算法实现的评估软件对含有24个节点和38条线路(含变压器)的IEEE-RTS系统...

  • 发输电系统可靠性评估述评

    Billinton 教授 关于这个领域的第一篇学术论文[2]问世以来,各国 可靠性领域的研究学者经过近四十年的不断努力, 发输电组合系统可靠性评估在计算模型、评估方法 ...

  • 备用输电元件对发输电系统可靠性的影响

    备用输电元件对发输电系统可靠性的影响_电力/水利_...[J]. IEEE Trans on Power Systems,2006,21(1)...王成福 ,等 基于机会约束规划的风 电预 测功率...

更多文档:

站点地图 | 文档上传 | 侵权投诉 | 手机版
新浪认证  诚信网站  绿色网站  可信网站   非经营性网站备案
本站所有资源均来自互联网,本站只负责收集和整理,均不承担任何法律责任,如有侵权等其它行为请联系我们.
文档下载 Copyright 2013 doc.xuehai.net All Rights Reserved.  email
返回顶部