在现代发电系统中,分布式发电技术日益成为传统大电网的有力补充。
In modern power generating system, distributed generation techniques become important supplements to traditional power grid increasingly.
分布式发电技术是一种新型的很有发展前途的发电和能源综合利用方式。
The distributed power generation technology is a new-typed perspective development for comprehensive utilization of power generation and energy sources.
随着人类社会能源和环境问题的日益凸显,分布式发电技术得到越来越多的关注与使用。
With the energy and environmental problems of human society has become increasingly prominent, the technology of distributed generation is gained more and more attention and widely used.
而分布式发电技术需要功率因数高,谐波污染少的大功率整流逆变系统作为其能量转换装置。
But this useful technology needs high power factor, low harmonics pollution rectifiers and inverters to be its energy converters.
随着可再生能源为核心的新能源发电技术的广泛应用,分布式发电技术成为电力系统一个新的研究热点。
With the extensive application of renewable energy generation, distributed generation become a new focus in power system research.
在介绍微电网概念的基础上,论述了电力电子技术在分布式发电和微电网中的应用。
The concept of the MicroGrid is introduced, and then the application of power electronics technology in distributed generation and the MicroGrid is addressed.
微型电网为解决分布式发电并网带来的技术挑战以及减轻地震等自然灾害对电网的影响提供了新思路。
Microgrid offers a new idea to solve the technical challenge brought by the interconnection of distributed generation and reduce the affects of natural disaster such as earthquake on power grid.
简要介绍了分布式发电及微网的特点,总结了国内外微网技术的研究现状。
The features of distributed generation and micro-grid are described and the new research progress of micro-grid is summarized.
这些基本技术包括燃料电池,太阳能光伏,分布式风能,智能逆变器,先进储能,柴油和天然气发电机等等。 。
Those underlying technologies include fuel cells, photovoltaic solar, distributed wind energy, smart inverters, advanced energy storage, diesel and natural gas generators, and more.
这些基本技术包括燃料电池,太阳能光伏,分布式风能,智能逆变器,先进储能,柴油和天然气发电机等等。 。
Those underlying technologies include fuel cells, photovoltaic solar, distributed wind energy, smart inverters, advanced energy storage, diesel and natural gas generators, and more.
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