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基于光滑化函数的ATC新模型及其有效算法 被引量:7

NEW SMOOTH-FUNCTION BASED ATC MODEL AND ITS EFFECTIVE ALGORITHM
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摘要 基于光滑化函数理论,建立了光滑化的可用传输容量(ATC)新模型。该模型将所有不等式约束的信息浓缩于一个等式中,从而避免了处理众多不等式约束而引起的非光滑性及由此产生的困难。采用牛顿法对光滑化的ATC模型进行求解,对IEEE 9节点、30节点及118节点标准测试系统进行了试算,并与传统的延拓潮流方法进行了比较。计算结果表明,所提出的模型和方法能快速可靠地识别出起作用的不等式约束,编程简单,是一种有效的ATC计算方法。 A new smooth available transfer capability (ATC) model is constructed based on smooth function transformation. The model gathers information of all inequalities into one equation,- thus non-smooth problem caused by inequalities can be avoided. Newton method is adopted in this paper to solve the smooth ATC model. Numerical tests have been done on the standard IEEE 9-bus, 30-bus and 118-bus power systems and results are compared with a traditional continuation power flow method. Experiences show that the new smooth ATC model and the algorithm of this paper can identify the binding constraint reliably and quickly. The proposed model is easy for implementation and is applicable to real-world power systems.
作者 吴伟杰 童小娇 严正 吴复立 倪以信 陈寿孙
机构地区 清华大学深圳研究生院 长沙理工大学数学系 香港大学电机与电子工程学系
出处 《电力系统自动化》 EI CSCD 北大核心 2004年第19期32-35,79,共5页 Automation of Electric Power Systems
基金 国家重点基础研究专项经费资助项目(G1998020307)。
关键词 电力市场 可用传输容量 光滑函数 延拓潮流 牛顿迭代法 electricity market available transfer capacity (ATC) smooth function continuation power flow Newton method
分类号 TM744 [电气工程—电力系统及自动化]
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参考文献10

  • 1Transmission Transfer Capability Task Force. Transmission Transfer Capability. Princeton (NJ): North American Electric Reliability Council, 1995
  • 2Transmission Transfer Capability Task Force. Transmission Transfer Capability. Princeton (NJ): North American Electric Reliability Council, 1996
  • 3Ejebe G C, Waight J G, Sanots-Nieto M, et al. Fast Calculation of Linear Available Transfer Capability. IEEE Trans on Power Systems, 2000, 15(3): 1112-1116
  • 4Chiang H D, Flueck A, Shah K S, et al. CPFLOW: A Practical Tool for Tracing Power System Steady-state Stationary Behavior Due to Load and Generation Variations. IEEE Trans on Power Systems, 1995, 10(2): 623-634
  • 5Momoh J A, El-Hawary M E, Adapa R. A Review of Selected Optimal Power Flow Literature to 1993, Part Ⅰ Newton,Linear Programming and Interior Point Methods. IEEE Trans on Power Systems, 1999, 14(1): 96-104
  • 6Momoh J A, El-Hawary M E, Adapa R. A Review of Selected Optimal Power Flow Literature to 1993, Part Ⅱ Newton,Linear Programming and Interior Point Methods. IEEE Trans on Power Systems, 1999, 14(1): 105-111
  • 7Greene S, Dobson I, Alvarado F L. Sensitivity of Transfer Capability Margins with a Fast Formula. IEEE Trans on Power Systems, 2002, 17(1): 34-40
  • 8Clarke F H. Optimization and Nonsmooth Analysis. New York:John Wiley, 1983
  • 9Qi L. Convergence Analysis of Some Algorithms for Solving Nonsmooth Equations. Mathematics of Operations Research,1993, 18:227-244
  • 10Sun D, Womersley R S, Qi H. A Feasible Semismooth Asymptotically Newton Method for Mixed Complementarity Problems. Mathematical Programming, 2002, 94:167-187

同被引文献90

引证文献7

二级引证文献24

电力系统自动化
2004年 第19期

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