Battery, Super Capacitor Based Hybrid Energy Storage with PV for Islanded DC Microgrid

Yam Krishna Poudel, Ramesh Kumar Pudasaini, Anand Kandel, N. Karki
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Abstract

Cogitating the present national as well as global context, renewable energy sources are becoming increasingly popular as a source of electricity, where connecting to the utility grid is either impossible or excessively costly. Several trends that have emerged as electrical distribution technology in the twenty-first century will change the requirements for energy transmission. Green power generating methods are receiving more attention due to the world's deteriorating environmental conditions, growing prices, the limited nature of fossil fuels, and rising energy demand. The increasing depletion of fossil fuels and the escalating need for energy has made renewable energy sources a global topic of discussion. The incredible advancement of renewable energy has allowed us to address environmental problems. However, the production from these sources could be more predictable which requires an appropriate energy storage system. The main aim of this research paper is to study the hybrid energy storage with solar photovoltaic for islanded DC Microgrid. This research study simulates, analyzes, and presents an islanded mode DC Microgrid with solar PV, battery, and super capacitor through the use of MATLAB Simulink. The MPPT (Maximum Power Point Tracking) system uses a two-stage DC converter. The regulated Battery Energy Storage System (BESS), coupled through a bidirectional converter, helps to maintain a steady dc bus voltage. The transient and steady-state characteristics of the storage systems are examined. This study demonstrates how quickly hybrid energy storage can adapt to sudden changes in the load.
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基于电池、超级电容器和光伏的混合储能技术用于孤岛式直流微电网
考虑到当前的国家和全球背景,可再生能源作为一种电力来源正变得越来越受欢迎,在这种情况下,连接公用电网要么不可能,要么成本过高。二十一世纪配电技术出现的几个趋势将改变对能源传输的要求。由于世界环境状况日益恶化、价格不断上涨、化石燃料的有限性以及能源需求的不断增长,绿色发电方法正受到越来越多的关注。化石燃料的日益枯竭和能源需求的不断攀升使可再生能源成为全球讨论的话题。可再生能源令人难以置信的进步使我们能够解决环境问题。然而,这些能源的生产可以更加可预测,这就需要一个合适的能源储存系统。本研究论文的主要目的是研究用于孤岛直流微电网的太阳能光伏混合储能系统。本研究通过使用 MATLAB Simulink,模拟、分析并展示了一个包含太阳能光伏、蓄电池和超级电容器的孤岛模式直流微电网。MPPT(最大功率点跟踪)系统采用两级直流转换器。调节后的电池储能系统(BESS)通过双向转换器耦合,有助于保持稳定的直流母线电压。研究考察了储能系统的瞬态和稳态特性。这项研究展示了混合储能如何快速适应负载的突然变化。
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