[This article belongs to Volume - 55, Issue - 02, 2023]
Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-22-12-2023-50

Title : COMPARATIVE ANALYSIS OF LOAD ASSESSMENT IN WIND-SOLAR HYBRID SYSTEMS USING HARDWARE AND MATLAB/SIMULINK
Maximum Power point Controller, Perturb & Observe, Concentrated Solar Power, Photovoltaic systems.

Abstract :

An MPPT-based hybrid solar-wind energy conversion system, as well as wind-based renewable energy production, is discussed in this paper. With the help of solar panels and wind turbines, the system will be able to produce an abundance of energy. In order to electrify rural areas, power industries, and do other tasks, this project aims to build a system that employs wind and solar electricity. Energy from the wind and the sun are examples of non-renewable resources. In addition to analyze the performance of the renewable energy system, the maximum power point tracking (MPPT) controller is used to trace the maximum outlet in both wind and solar energy conversion systems. Due to their extensive availability and relative ease of use, solar and wind power production have quickly become the most popular renewable energy sources. No amount of photovoltaic or wind power will be sufficient to meet all of our needs. This leads to the optimization of electrical phenomena and wind systems in order to meet load demand. A standalone hybrid renewable energy system using photovoltaic and wind energy conversion using a perturb and observe technique is suggested in this paper. In order to meet a variety of load scenarios, this system's application combines the benefits of all generating technologies and provides watts.