Abstract

There is an increasing demand for power production day by day all over the globe; thus, hybrid frameworks have an essential role in producing sufficient power for the desirable load due to increasing power demand. The proposed hybrid renewable energy (HRE) systems are used to provide power in different areas to conquer the intermittence of wind and solar resources. The HRE system incorporates more than one renewable energy (RE) system. In this research article, the optimum power generation of different combinations of RE using different Maximum Power Point Tracking (MPPT) control methods is presented. The Fuel Cell (FC), FC–Photovoltaic (PV), FC–Wind (W), and FC–PV–W systems are developed to examine different MPPT controllers. The results show that the FC–PV–W HRE system produces the maximum power as compared to the FC, FC–PV, and FC–W systems. The FC–PV–W HRE system produces increased power compared to 94.24% from the FC system, 37.17% from the FC–PV hybrid system, and 15.8% from the FC–W hybrid framework with a Perturb and Observe (P&O) controller and, similarly, 74.57% from the FC system, 10.3% from the FC-PV hybrid system, and 31.64% from the FC-W hybrid system using a fuzzy logic (FL) controller, indicating that the best combination is the FC-PV-W hybrid system using an FL controller, which is useful for maximum power generation with reduced oscillations.

Highlights

  • The global demand for electrical energy is gradually increasing, and the search for replacements for fossil fuels is done on a priority basis

  • Individual systems are connected with Maximum Power Point Tracking (MPPT) and without MPPT approaches in a hybrid system without MPPT and with MPPT

  • Since systems without the MPPT approach provide non-linear output, these powers cannot be used in the system

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Summary

Introduction

The global demand for electrical energy is gradually increasing, and the search for replacements for fossil fuels is done on a priority basis. An ANFISbased MPPT methodology was presented to integrate the PV, WT, and DG into a hybrid framework In terms of their ability to produce power and consume it, the modeling results are promising [24]. The results of a proportional investigation of multiple MPPT strategies used for the wind–PV hybrid framework demonstrate the utility of the ANFIS methodology in stipulations of level of voltage and MPP oscillation mitigation [25]. It has developed a unique system based on front-end rectifier stage arrangement used for WT/PV hybrid. (ii) If F represents the differentiable in the second form (b), F is an integrable if and only if F (f) ≺ F (a) for all f ∈ S

Fuzzy Differential Equations
Simulation Model of Complete Systems
88 V Varies 40 Ohm
Results and Discussions
Conclusions

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