可再生能源集成的分布式实时潮流控制

2013 IEEE International Conference on Smart Grid Communications (SmartGridComm) Pub Date : 2013-12-19 DOI:10.1109/SmartGridComm.2013.6688010

K. Nakayama, Changhong Zhao, L. Bic, M. Dillencourt, J. Brouwer

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引用次数: 9

摘要

我们提出了一个整合可再生能源发电和能源储存的最优实时潮流(ORPF)问题。在ORPF问题中，我们寻求将能源储存和化石燃料发电的成本降至最低，以平衡负荷和可再生能源发电。我们提出了一种新颖的分散算法，该算法利用捆绑集图理论来解决这一问题。Tie-set图理论通过将电网划分为一组称为“Tie-set”的独立环路，显著降低了ORPF问题的复杂性。仿真结果展示了实时电力生产响应和流量控制，从而可靠地使用电池系统并降低使用化石燃料的成本。

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Distributed Real-Time Power Flow control with renewable integration

We formulate an Optimal Real-Time Power Flow (ORPF) problem that integrates renwable energy generation and energy storage. In the ORPF problem, we seek to minimize the costs of energy storage and of power generation from fossil fuel that are required to balance the loads and generation from renewable sources. We present a novel decentralized algorithm for this problem, using tie-set graph theory. Tie-set graph theory significantly reduces the complexity of the ORPF problem by dividing a power network into a set of independent loops referred to as “tie-sets.” Simulation results demonstrate real-time power production responses and flow controls that lead to reliable use of battery systems and reduce the cost of using fossil fuel.

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2013 IEEE International Conference on Smart Grid Communications (SmartGridComm)

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