Abstract:
The project "Solar Wind Hybrid Power System with Battery Storage" is aimed at
developing a robust and sustainable energy solution to meet the critical demand for
uninterrupted power supply. In today's dynamic landscape, where stable electricity is
indispensable across various sectors such as telecommunications, medical facilities, and
industrial processes, this project seeks to provide a reliable source of power.
The proposed system integrates Renewable Energy Sources (RES) such as Solar, Wind,
and Battery which is an energy storage element. By combining these sources, the project
ensures a continuous power supply even during periods of low or no generation of any
source. Multiport DC-DC Converter (MPC) is utilized for the integration of these sources.
Through continuous monitoring and optimization, the MPC ensures the efficient harvesting
of energy, maximizing power extraction even under varying environmental conditions.
Our project focuses on Designing and implementing a Multiport DC-DC Converter (MPC).
This versatile converter configuration ensures seamless integration and effective
management of energy flow within the system. In this Hybrid System energy of RES will
be utilized to maintain constant output voltage and if surplus energy is present then battery
will store that excess energy while in deficient power mode, and it will support the system.
The significance of this project lies in its potential to advance sustainable energy solutions
and reduce dependence on traditional power sources. By harnessing the abundant energy
resources and integrating them with innovative storage and control technologies, the
project strives to promote a greener and more resilient energy infrastructure for the future
