Abstract
The most cost-effective electrical energy is produced by photovoltaic (PV) systems, and with the smallest carbon footprint, making it a sustainable renewable energy. They provide an excellent alternative to the existing fossil fuel-based energy systems, while providing 4% of global electricity demand. PV system efficiency is significantly reduced by the intrinsic non-linear model, maximum power point (MPP), and partial shading (PS) effects. These two problems cause major power loss. To devise the maximum power point tracking (MPPT) control of the PV system, a novel group teaching optimization algorithm (GTOA) based controller is presented, which effectively deals with the PS and complex partial shading (CPS) conditions. Four case studies were employed that included fast-changing irradiance, PS, and CPS to test the robustness of the proposed MPPT technique. The performance of the GTOA was compared with the latest bio-inspired techniques, i.e., dragon fly optimization (DFO), cuckoo search (CS), particle swarm optimization (PSO), particle swarm optimization gravitational search (PSOGS), and conventional perturb and observe (P&O). The GTOA tracked global MPP with the highest 99.9% efficiency, while maintaining the magnitude of the oscillation <0.5 W at global maxima (GM). Moreover, 13–35% faster tracking times, and 54% settling times were achieved, compared to existing techniques. Statistical analysis was carried out to validate the robustness and effectiveness of the GTOA. Comprehensive analytical and statistical analysis solidified the superior performance of the proposed GTOA based MPPT technique.
Highlights
Solar energy is utilized in commercial and standalone projects for electricity generation using concentrated solar and photovoltaic principles
A novel group teaching optimization algorithm was used for maximum power point tracking (MPPT)
Power tracked by group teaching optimization algorithm (GTOA), dragon fly optimization (DFO), cuckoo search (CS), particle swarm optimization (PSO), particle swarm optimization gravitational search (PSOGS)
Summary
Solar energy is utilized in commercial and standalone projects for electricity generation using concentrated solar and photovoltaic principles. Solar energy provides numerous merits, such as being. 22 of being abundant in nature, zero fuel cost, close to no carbon footprint, no mechanical maintenance, abundant nature, cost, close no carbon footprint, no mechanical maintenance, scalability, scalability,inand easezero of fuel installation. Intorecent times, the output of photovoltaic (PV) energy has and ease of installation. USA (60.5 GW), and Italy (20.9 GW) [2]. As of 2020, the cost per watt is 1.654–1.6953 cents/KWh,. As of 2020, the cost per watt is 1.654–1.6953 cents/KWh, which is whichGW), is theand most cost-effective electrical energy [3,4].
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