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Techno-economic-environmental and sociological study of a microgrid for the electrification of difficult un-electrified isolated villages
Sustainable Energy Grids & Networks ( IF 5.4 ) Pub Date : 2021-10-12 , DOI: 10.1016/j.segan.2021.100548
Amit Rai 1 , Ashish Shrivastava 2 , K.C. Jana 1 , Jayalakshmi N.S. 3
Affiliation  

The need for electrification of un-electrified locations is usually met through the grid extension. However, it is not a cost-effective solution for difficult geographical regions. This gap of grid extension can be met through distributed generation, which can be renewable or non-renewable generation systems. However, non-renewable generation systems have a greenhouse effect, which has a hazardous effect on the environment and the native community. This study proposes a microgrid with the most suitable combination of the renewable energy system (RES) for electrification of un-electrified locations in difficult geographical conditions such as in the northeastern parts of India. Four RESs, with standalone and hybrid configurations, are compared for finding the optimal configuration of power plants. Moreover, the social impact of different power plants, carbon emission reduction by their establishment, and grid extension options are studied for the overall acceptance of the power plant by the native community and economic viability for investors.



中文翻译:

用于困难未电气化偏远村庄电气化的微电网的技术-经济-环境和社会学研究

通常通过电网扩展来满足未电气化地点的电气化需求。但是,对于困难的地理区域,它不是一种具有成本效益的解决方案。这种电网扩展的差距可以通过分布式发电来弥补,分布式发电可以是可再生或不可再生的发电系统。然而,不可再生发电系统具有温室效应,这对环境和当地社区具有危险影响。本研究提出了一种具有最合适的可再生能源系统 (RES) 组合的微电网,用于在印度东北部等困难地理条件下的未电气化地点进行电气化。对具有独立和混合配置的四个 RES 进行比较,以找到发电厂的最佳配置。而且,

更新日期:2021-10-25
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