详细分析了不同故障条件下的并网分布式发电混合系统

2014 International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC) Pub Date : 2014-04-16 DOI:10.1109/ICCPEIC.2014.6915382

Ansuman Mohapatra, B. Panigrahi

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引用次数: 7

摘要

随着人口的增加，对电力的需求也在增长。它不能仅仅通过使用有限的资源来实现。因此，可再生能源将在未来发挥关键作用。如今，dg也被用于向消费者供电。配电箱正常接入主配电网。它与主电网的供电一起工作，但当由于某些故障而与主电网切断供电时，这些dg以孤岛模式运行。微电网(μ-grid)是由多个dg组合而成的小型电力系统。本文对不同故障条件下的并网分布式发电混合系统进行了建模和研究。本文对混合光伏发电系统和基于风力发电的混合发电系统进行了建模和仿真。并对模型在不同故障条件下的输出结果进行了比较。这些研究针对两种情况进行。首先，当dg与主电网一起正常运行时。第二种情况是当dg以孤岛模式运行时。所开发的模型是在MATLAB/ SIMULINK环境下建立的。

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Detailed analysis of grid connected distributed generation based hybrid system under different fault conditions

With the increase in population, the demand for electric power is also growing. And it cannot be fulfilled by using finite sources only. So the renewable energy sources are going to play a key role in the future. Now-a-days DGs are also used for supplying power to the consumers. DGs are connected normally to the primary distribution network. It works along with the supply from main grid, but when supply is cut off from the main grid due to some fault, these DGs operates in islanding mode. Combination of a number of DGs to form a low scale power system is called a microgrid (μ-grid). This paper involves modeling and study of grid connected distributed generation based hybrid system under different fault conditions. The modeling and simulation of hybrid PV generation system and wind generation based hybrid system has been done in this paper. And outputs of these models under different fault conditions are compared. These studies are done for two situations. First when the DGs are operating in normal condition along with the main grid. And the second situation is when the DGs are operating in islanding mode. The developed models are built in MATLAB/ SIMULINK environment.

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2014 International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC)

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