Allocation of Static VAr Compensators Using Optimal Reactive Power Flow and Branch & Bound Algorithm

Mauricio Chinarelli Alves Silva; Edmarcio Antonio Belati

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Allocation of Static VAr Compensators Using Optimal Reactive Power Flow and Branch & Bound Algorithm

机译：利用最优无功潮流和分支定界算法分配静态VAr补偿器

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This paper presents a model based on a Optimal Reactive Power Flow (ORPF) to allocation of Static VAr Compensator (SVC) in the power transmission network. The SVC was modeled as a variable susceptance and inserted into Ybus matrix. For discretization of the devices to be allocated in the system were used binary variables associated to SVC susceptance. A multiobjective function formed by two parts, active power losses and voltage deviation, was used in the ORPF formulation. In each one of parts was associated a parameter that allows to give more or less weight to each part. Due to the problem characteristics, Mixed Integer Nonlinear Programming (MINLP), was used a Branch & Bound (B&B) algorithm associated with the ORPF. The model was tested in the IEEE 118 bus system. The results show that the modeling and the technique of solution used are appropriate for SVCs allocation and powersystem analysis

机译：本文提出了一种基于最优无功潮流（ORPF）的模型，用于在输电网络中分配静态VAr补偿器（SVC）。将SVC建模为可变电纳并将其插入Ybus矩阵。为了离散化系统中要分配的设备，使用了与SVC敏感性相关的二进制变量。在ORPF公式中使用了由两部分组成的多目标函数，即有功功率损耗和电压偏差。在每个零件中都关联了一个参数，该参数允许为每个零件赋予更多或更少的权重。由于问题的特征，混合整数非线性规划（MINLP）被用于与ORPF相关的分支界限（B＆B）算法。该模型已在IEEE 118总线系统中进行了测试。结果表明，所采用的建模方法和求解技术适用于SVC的分配和电力系统分析。

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《Latin America Transactions, IEEE (Revista IEEE America Latina)》 |2016年第5期|2194-2200|共7页
作者
Mauricio Chinarelli Alves Silva; Edmarcio Antonio Belati;
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Allocation of Static VAr Compensator; Branch and Bound Algorithm; Optimal Reactive Power Flow;

机译：静态VAr补偿器的分配;分支定界算法;最优无功潮流;

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Allocation of Static VAr Compensators Using Optimal Reactive Power Flow and Branch & Bound Algorithm

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