The requirement of electric power is increasing with time. This obviously is not applicable to all cases but some circumstances. Wind power and photovoltaic energy have grown enormously over the past decade. Therefore, this research paper introduces alternative energy sources in the form of a hybridized energy system as opposed to traditional resources of electrical power generation and supply, such as thermal plants or hydropower systems. This system meets the demand for sophisticated smart grids using a combination of solar panels and wind turbine generators. A simple and low-cost control technique has been implemented, which will monitor the operating point of the PV system as well as the wind turbine generator (WTG), keeping it at its maximum power output condition under varying environmental conditions. In this study, we use solar and wind energy sources to generate electricity from renewables to satisfy consumer demand. A simulation model using MATLAB has been implemented for solar and wind generation systems to accommodate the development. Engineers specifically design standalone systems to achieve maximum power outputs. The photovoltaic (PV) system utilizes a 72-cell array and constructs a superconducting magnetic energy storage (SMES) coil to enhance power generation. In response to the requirements of a smart grid, we have developed a hybrid generation system that utilizes renewable energy sources (RES) to generate electricity under any weather conditions. This is the main prerequisite for a smart grid. In addition to providing comprehensive simulation results that demonstrate the feasibility of the system, the entire hybrid system is described in detail. A simulation model for a hybrid power system is created using MATLAB/Simulink.

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Modelling and Simulation of Hybrid Power Systems with Fuzzy Control and Renewable Energy Sources

  • Sandeep Gupta,
  • Vineet Bhushan Saran,
  • Sandeep Kanaujia,
  • Prateeksha

摘要

The requirement of electric power is increasing with time. This obviously is not applicable to all cases but some circumstances. Wind power and photovoltaic energy have grown enormously over the past decade. Therefore, this research paper introduces alternative energy sources in the form of a hybridized energy system as opposed to traditional resources of electrical power generation and supply, such as thermal plants or hydropower systems. This system meets the demand for sophisticated smart grids using a combination of solar panels and wind turbine generators. A simple and low-cost control technique has been implemented, which will monitor the operating point of the PV system as well as the wind turbine generator (WTG), keeping it at its maximum power output condition under varying environmental conditions. In this study, we use solar and wind energy sources to generate electricity from renewables to satisfy consumer demand. A simulation model using MATLAB has been implemented for solar and wind generation systems to accommodate the development. Engineers specifically design standalone systems to achieve maximum power outputs. The photovoltaic (PV) system utilizes a 72-cell array and constructs a superconducting magnetic energy storage (SMES) coil to enhance power generation. In response to the requirements of a smart grid, we have developed a hybrid generation system that utilizes renewable energy sources (RES) to generate electricity under any weather conditions. This is the main prerequisite for a smart grid. In addition to providing comprehensive simulation results that demonstrate the feasibility of the system, the entire hybrid system is described in detail. A simulation model for a hybrid power system is created using MATLAB/Simulink.