| Summary: | This research delves into the control strategy and modeling of a utility-grid tied hybrid system that conjoins a Solar Photovoltaic (SPV) and wind energy system. To maximize real power output under varying environmental conditions, both SPV-wind energy systems are controlled by Perturb & Observe (P&O) type Maximum Power Point Tracking (MPPT) algorithm. A sine varying modulating signal is generated through Proportional Integral (PI) based voltage and current controllers. Additionally, the target of reactive power compensation is achieved by connecting Distributed Static Synchronous Compensator (D-STATCOM) at coupling point. Its application helps in maintaining a stable utility-grid connection, and efficient power distribution. Simulation studies reveal that harmonics are reduced at various coupling points and are less than 5 %, as per IEEE-519 standard. It ensures that the proposed system operates at its peak efficiency, taking into account fluctuations in SPV radiations and wind speed. In addition, the steady-state response of the developed system is obtained with PI controller and analyzed. Results obtained are compared by implementing Grasshopper Optimization (GO) technique for validation and accuracy. It is found that rise time, settling time and maximum overshoot are 0.246 s, 0.38 s and 6 %, respectively with GO technique. Therefore, it is envisaged that the operation of D-STATCOM with GO technique is successfully integrated and is capable to address the key PQ issues, like voltage and current profile amongst others. Overall, the results demonstrate that the proposed system is highly efficient, making it an ideal choice for rural communities seeking to adopt renewable energy solutions.
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