配电系统功率损耗最小的概率方法

2018 International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE) Pub Date : 2018-10-01 DOI:10.23919/ICUE-GESD.2018.8635703

S. Mostafa, Jai Govind Singh

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引用次数: 0

摘要

由于风力发电机组具有环保、技术可靠等特点，越来越多的分布式发电机组被纳入电力系统。分布式发电系统的非最佳尺寸和布局会造成较大的功率损耗和馈线电压分布的异常变化，这是一个普遍存在的问题。本文主要研究分布式电源的概率设计方法及其对中压馈线的影响。考虑风电和太阳能发电的随机性和负荷变化的不确定性，采用基于蒙特卡罗模拟的概率潮流模型。该方法简单，利用开源的MATLAB软件包括MATPOWER工具对低压和中压馈线进行分析和设计。这种方法可以为公用事业/所有者提供几种选择，将wt - dg和pv - dg放置在不同的合适节点上。该方法将在印度实际22总线和IEEE 69总线网络的不同案例研究中进行测试，并相应地研究dg对系统电压分布和损耗的影响。

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A Probabilistic Approach for Power Loss Minimization in Distribution Systems

The number of Wind Power Distributed Generators are increasingly integrated in power systems because of having environmentally friendly and technically sound characteristics. It is prevalent that the non-optimal size and placement of Distributed Generation (DGs) can cause high power loss and unexpected voltage profile variation on feeder. This research study focusses on the probabilistic approach to design of Distributed Generation (DGs) and its impact on medium voltage (MV) feeders. Monte Carlo simulation based probabilistic power flow considering stochastic nature of wind and solar power generation and uncertainty of load variation are employed. The proposed method is simple that used open source MATLAB software including MATPOWER tools to analyse and design low voltage and medium voltage feeder. This method can furnish several choices to utilities/owners to place WT-DGs and PV-DGs at different suitable nodes. The method will be tested on different case study using Indian practical 22-bus and IEEE 69-bus network and the effect of DGs on the system voltage profile and loss are investigated accordingly.

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来源期刊

2018 International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE)

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