Modeling and Simulink of OPTIMIZED 2KW HYBRID MICROGRID FOR REMOTE INSTALLATIONS
Implementation Plan:
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Step 1: Initially, we will construct a Hybrid MicroGrid simulink model.
Step 2: Then we develop wind power generation based on Wind data.
Step 3: Next, we develop the battery, SoH, and Dg fuel Model.
Step 4: Then, we implement the power balancing equation into the model.
Step 5: Next, we Model Objective Function for minimizing DG Fuel and Battery Health Deterioration.
Step 6: Then we Implement the Genetic Algorithm for Optimization based on mutually agreed Convergence Criteria
Step 7: Next we simulate the model.
Step 8: Performance metrics
Step 8.1: P(pv) Vs Irradiance
Step 8.2: P(wind) Vs Wind Speed
Step 8.3: Battery Charging & Discharging
Step 8.4: Daily Power Contribution from PV, Wind, Battery, DG for Total Load
Step 8.5: GA Convergence and resultant PV, Wind values
Step 8.6: Daily Line Chat for Annual Curve Solar, Wind Battery
Step 8.7: Comparison of Fuel (DG) Consumption in Absence of Microgrid and Presence of Microgrid
Step 8.8: Predicted Month wise Consumption of Fuel
Software Requirements:
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1) Development Tool: Matlab R2020a & Simulink (and above)
2) OS: Windows 10 [64-bits]
Note:
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1) If the above plan does not satisfy your requirement, please provide the processing details, like the above step-by-step.
2) Please note that this implementation plan does not include any further steps after it is put into implementation.
3) This project is not a Real time, Just simulation process only.
