Improve Lifespan of Battery Energy Storage in Remote Area Power System
Albasheri Mohammed Abdulelah, Ouahid Bouchhida, Youcef Soufı, Cherifi Abderrezzak, Abdelhafidh Moualdia, Mujammal Ahmed
Abstract
The costly nature of battery storage is one of the barriers to using solar energy in remote area power system (RAPS). Due to the continuous high current that is used from the battery as a consequence of the nature of operation in (RAPS) applications, batteries often need to be changed more frequently than hybrid energy storage devices. The system's total life-cycle cost (LCC) will rise as a consequence of this. In this study, an independent photovoltaic (PV) and battery system for a RAPS application are analyzed, and it suggests that supercapacitors (SCs) be employed in order to rise the lifespan of the batteries and minimize the total cost to operate throughout the system. The Photovoltaics and battery storage solely (also known as without SC) and the Photovoltaics, battery, and SC (also known as with SC) scenarios are both established. Furthermore, energy management technique is used to unsure, balance power among the solar energy, storage devices, and load. Also, to regulate DC link voltage. The efficacy of the suggested system is examined by employing MATLAB/Simulink under a multitude of conditions including demand load and irradiation fluctuations.