Video Demonstration
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Project Overview
An IEEE 14-bus power-system model integrating solar PV, a wind farm and battery storage to study voltage, power flow and renewable variability.
The model is structured around multi-source renewable integration, storage coordination, bus-voltage assessment and dynamic grid performance. It is suitable for scholars who need a clear implementation path, measurable outputs and a page that connects the video demonstration with the underlying engineering method.
System Architecture and Main Components
- IEEE 14-bus network
- Conventional generators and loads
- Grid-connected solar PV plant
- Wind farm model
- Battery energy storage system
- Measurements, breakers and supervisory control
MATLAB / Simulation Methodology
- Configure the IEEE 14-bus base network and load flow.
- Connect PV and wind generation at selected buses.
- Add a bidirectional battery converter and SOC limits.
- Coordinate renewable and storage power through a supervisory controller.
- Apply irradiance, wind, load and fault scenarios and monitor bus performance.
Control and Analysis Strategy
The central technical emphasis is multi-source renewable integration, storage coordination, bus-voltage assessment and dynamic grid performance. Measurements are converted into controller or analysis variables, limits are applied to maintain realistic operation, and disturbances are introduced to evaluate stability, tracking quality, efficiency and transient performance.
The implementation can be extended with parameter optimization, artificial-intelligence control, comparative algorithms, hardware-in-the-loop preparation or publication-style performance indices, depending on the research objective.
Expected Simulation Outputs
- Bus voltages and phase angles
- Active and reactive power flow
- PV, wind and battery power
- Battery SOC and DC-link voltage
- Frequency and fault-recovery response
Video Summary and Simulation Transcript
The video begins with the complete IEEE 14 Bus System with Solar PV, Wind Farm & BESS - MATLAB Simulink model and identifies the principal subsystems: IEEE 14-bus network, Conventional generators and loads, Grid-connected solar PV plant, Wind farm model.
It then explains the signal flow and demonstrates multi-source renewable integration, storage coordination, bus-voltage assessment and dynamic grid performance. Reference commands and operating conditions are applied so that the controller, converter or physical model can be observed during steady-state and transient operation.
The final scopes focus on bus voltages and phase angles, active and reactive power flow, pv, wind and battery power, battery soc and dc-link voltage. These plots support result discussion, controller comparison, report preparation and further PhD or FYP development.
Research Applications and Possible Extensions
- Renewable penetration studies
- Power-flow and voltage-stability research
- BESS coordination
- Smart-grid thesis projects
- Controller or algorithm comparison using identical operating scenarios
- Parameter sensitivity, optimization and publication-style result analysis
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Project Content Note
The page describes a representative project workflow. The exact model, parameters, controller and results may vary according to the selected research paper or university requirement.