Selecting Bilateral Transactions for Minimum Losses in Deregulated Power System -- An Assignment Model Approach

2015 6th International Conference on Intelligent Systems, Modelling and Simulation Pub Date : 2015-02-09 DOI:10.1109/ISMS.2015.35

Jadhav Bhagyashri, Ghawghawe Nitin

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Abstract

The optimal power flow issue is one of the most important problems faced by dispatching Engineers regarding large scale power systems. It is a mathematical approach of the global power system optimization problem that aims at determining the least control movements to keep power system at most desired state. Thus, it represents flexible and powerful tool, which can address a wide range of planning and operation studies. However, the complexity of optimal power flow increases dramatically with large scale networks, which often discourages the utilization of this powerful tool in many applications. In the deregulated environment it allows bilateral transactions in which it becomes necessary to select the transactions which are suitable for consumer end to specified generator. The Optimal Power Flow (OPF) problem with transmission loss as an objective function is formulated as an Assignment problem and is solved by using Hungarian technique. The test cases used in this paper are the standard IEEE-6 bus. Results obtained by using assignment problem by Hungarian technique.

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解除管制电力系统中双边交易的最小损失选择——一种分配模型方法

最优潮流问题是大型电力系统调度工程师面临的重要问题之一。它是解决电力系统全局优化问题的一种数学方法，其目的是确定最小的控制动作，使电力系统处于最理想状态。因此，它代表了灵活和强大的工具，可以解决广泛的规划和运营研究。然而，在大规模网络中，最优潮流的复杂性急剧增加，这往往阻碍了这一强大工具在许多应用中的应用。在放松管制的环境中，它允许双边交易，其中有必要选择适合消费者端的交易到指定的发电机。将以传输损耗为目标函数的最优潮流(OPF)问题表述为分配问题，并采用匈牙利技术求解。本文使用的测试用例是标准的IEEE-6总线。用匈牙利技术求解指派问题得到的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 6th International Conference on Intelligent Systems, Modelling and Simulation

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