Simulation and Analysis for 100kW Standalone Hybrid Renewable Energy System

2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies (GlobConHT) Pub Date : 2023-03-11 DOI:10.1109/GlobConHT56829.2023.10087671

Bhavya Pandya, Siddharth Joshi

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Abstract

Every day, environmental issues deteriorate further. The adoption of the industry 4.0 revolution, the use of renewable energy, advancements in control systems, and other 21st-century revolutions all call for a significant increase in power consumption. Including captive power facilities that can supply the local load is one way to address the requirement for electricity. A single renewable energy source frequently presents problems in terms of generating electricity due to the intermittent nature of renewables. Hybrid renewable energy systems are one of the most promising ways to meet the load demand. This paper focused on the modeling of large-scale hybrid renewable energy systems (HRES) with the incorporation of solar PV, wind energy conversion system (WECS), and battery energy storage system (BESS). This study also includes simulation and analysis of a large-scale hybrid renewable energy system with a DC load application. In this paper Gain Scheduling PI(GSPI) controlling technique is used for good stability and improvement of the response time of 100 kW HRES. MATLAB SIMULINK is used to evaluate the system for different combinations of supply and load.

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100kW独立式混合可再生能源系统仿真与分析

环境问题日益恶化。工业4.0革命的采用、可再生能源的使用、控制系统的进步以及其他21世纪的革命都要求电力消耗大幅增加。包括能够供应当地负荷的自备电力设施是解决电力需求的一种方法。由于可再生能源的间歇性，单一的可再生能源在发电方面经常出现问题。混合可再生能源系统是满足负荷需求最有前途的方法之一。本文主要研究了太阳能光伏、风能转换系统(WECS)和电池储能系统(BESS)组成的大型混合可再生能源系统(HRES)的建模问题。本研究还包括一个大型混合可再生能源系统与直流负荷应用的仿真和分析。本文采用增益调度PI(Gain Scheduling PI, GSPI)控制技术，提高了100kw HRES的稳定性和响应时间。利用MATLAB SIMULINK对不同的供电负荷组合进行了系统评估。

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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2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies (GlobConHT)

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