Abstract
Renewable energy sources are becoming more common in the energy generation field these days. Renewable energy sources such as photovoltaic (PV) systems, wind power (WP), and biomass are gaining popularity due to their ease of use, low cost, and low environmental impact. The environmental issues, declining fuel supplies, and increasing energy demands have drawn our attention to the glimmer of hope for a future focused entirely on sustainable and non-polluting energy sources. Photovoltaic (PV) power generation is becoming more common in comparison to other renewable energy sources due to advantages such as ease of access, low cost, low environmental emissions, and lower maintenance costs. In this dissertation, three separate Maximum power point monitoring techniques are used to construct a solar PV system (MPPT). Modeling and simulation using the MATLAB Simulink programmeare being used to check the effectiveness of the proposed scheme. The model is investigated using two partial shading patterns. By providing different values of input radiations to all four modules connected in sequence, we were able to create partial shading conditions using the PV array block. The panel's output is fed to the optimization technique block, which then feeds the boost converter from their duty cycle output. Under partial shading, the results show that the Particle Swarm Optimization algorithm outperforms the Perturb and Observe and Incremental Conductance algorithms..
Highlights
Solar cell is a photovoltaic principle-based electronic device that directly converts light energy into energy
Fossil fuels have been excavated, not burned.solar panels are a finite source of energy from the ground of large power plantsDirectly convert sunlight to power without harmful emissions.Solar cell directly converts light energy to direct electricity (DC).[2][4]
It can be said that PSO algorithm performs better under variable temperature and radiation conditions.The introduction of an efficient charge controller based on an intelligent maximum energy monitoring system increases solar photovoltaic system operating efficiency
Summary
Solar cell is a photovoltaic principle-based electronic device that directly converts light energy into energy. Solar cells do not use light-emitted heat energy to generate electrical energy.The photovoltaic effect of 1839 and the first thin film solar of 1883 were discovered. When light photons strike these cellsDue to the "photovoltaic effect," they lead to power generation in the sunlight.Electric currents fluctuate between cells[3]. Electrical powerThe direct current (DC) generated by all of these solar cells is whyCurrent is sent to an inverter which makes it the alternative equivalent(AC).The obtained AC is ready for home use or even for local use by appliancesNetwork for the distribution of electricity.Solar cells form a "module" which supplies current and voltage (and power). The source impedance and the load impedance can be adapted by the adjustment of the corresponding boost cycle and a complete power transfer monitoring can be achieved from the photovoltaic system
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