微电网和公用电网负荷分担的背靠背变流器控制

2013 Third International Conference on Advances in Computing and Communications Pub Date : 2013-08-29 DOI:10.1109/ICACC.2013.104

Nitin P. Choudhary, X. Pote

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引用次数: 4

摘要

本文提出了一种利用背靠背变流器实现公用电网或微电网负荷分担的方法。微电网有分布式发电，比如光伏发电，风力发电，分布式发电使用甘蔗作为燃料，这是糖厂的废料。据估计，印度目前每年可利用的生物质约为5亿吨。由环境部赞助的研究估计，每年剩余的生物质可用性约为1.2亿至1.5亿公吨，覆盖农业和林业残留物，相当于约18,000兆瓦的潜力。除此之外，如果这些糖厂采用技术和经济上最优的热电联产技术从其生产的甘蔗渣中提取电力，那么该国550家糖厂可以通过基于甘蔗渣的热电联产产生约5000兆瓦的额外电力。这种额外的配电发电可以使用背靠背转换器与公用电网共享。背靠背变流器还提供了公用电网和微电网之间的频率隔离。

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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Controlling of Back to Back Converter for Load Sharing in Microgrid and Utility Grid

This paper proposes a method to share a load of utility grid or micro grid using back to back converter. A micro grid which is having distributed generation like photovoltaic power generators, wind power generation, distributed generation using bagaaas as fuel which is wastage material sugar mills. The current availability of biomass in India is estimated at about 500 millions metric tones per year. Studies sponsored by the Ministry has estimated surplus biomass availability at about 120 - 150 million metric tones per annum covering agricultural and forestry residues corresponding to a potential of about 18,000 MW. This apart, about 5000 MW additional power could be generated through bagasse based cogeneration in the country's 550 Sugar mills, if these sugar mills were to adopt technically and economically optimal levels of cogeneration for extracting power from the bagasse produced by them. This extra distribution generation can be shared with utility grid using back to back converter. The back to back converter also provides frequency isolation between utility grid and micro grid.

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2013 Third International Conference on Advances in Computing and Communications

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