Design & Operation of an Electrical Power System | MATLAB Simulink (132kV–33kV–11kV)
🔌 Design & Operation of an Electrical Power System | MATLAB Simulink (132kV–33kV–11kV) You can download project file, matlab file through - https://simuscope.gumroad.com/l/jdjed In this video, I present a complete multi-voltage electrical power system designed and simulated in MATLAB Simulink (Simscape Electrical). The model represents a realistic generation–transmission–distribution network operating at 132 kV, 33 kV, and 11 kV, including generators, transformers, long transmission lines, load variation studies, and power factor correction. 📌 What this video covers: Modeling synchronous generators with realistic internal impedance Step-up and step-down transformer modeling with leakage reactance Long transmission lines (20 km–200 km) using real R-L-C parameters Residential and industrial load modeling at 11 kV and 33 kV Voltage regulation and per-unit bus voltage analysis Power flow (MW & MVAr) and transmission line losses Load variation testing from 25% to 125% Power factor correction using a shunt capacitor bank Comparison between Simulink (dynamic) and PowerWorld (steady-state) results This simulation demonstrates how voltage stability, power losses, and efficiency are managed in real-world power systems and highlights the importance of proper transformer sizing, conductor selection, and reactive power compensation. 🎓 Who this video is for: Electrical engineering students Power system & renewable energy engineers MATLAB / Simulink learners Anyone studying power flow, transmission, or distribution systems 🛠 Tools Used: MATLAB Simulink Simscape Electrical PowerWorld Simulator 📥 Resources: If you’d like access to the Simulink model, calculations, or project files, let me know in the comments. 👍 Like | 🔔 Subscribe | 💬 Comment If this helped you understand power systems better, drop a question below — I reply

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