Hi Giulia,
Hope you are doing good,
In the Simulink "power_microgrid" model, the three-phase generator represents the electricity supply from the main grid or utility. The power injected into the microgrid from the main grid is typically assumed to be constant unless there are variations or control mechanisms applied to it.
The value of the power injection from the main grid can be inferred from the parameters of the generator block in the model. The generator block should have properties such as rated power, voltage, and frequency. These properties determine the constant power injection from the main grid into the microgrid.
The current Iprim in the power system represents the primary side current of the transformer. In the microgrid context, it represents the current flowing from the main grid side to the microgrid side of the transformer. The transformer is responsible for stepping down the voltage from the main grid to the microgrid voltage level.
To understand the relationship between the power injection and the right side of the transformer, you need to analyze the transformer block in the model. The transformer block should have properties such as turns ratio, impedance, and losses. These properties determine the transformation of voltage and current from the primary side (main grid side) to the secondary side (microgrid side) of the transformer.
In summary, the three-phase generator in the "power_microgrid" model represents the constant power supply from the main grid to the microgrid. The power injection can be inferred from the generator block properties. The current Iprim represents the primary side current of the transformer, indicating the flow of current from the main grid to the microgrid. The transformer block determines the voltage and current transformation between the main grid and microgrid sides.
For a detailed understanding of the power flow and control mechanisms in the "power_microgrid" model, it's recommended to refer to the model documentation or the documentation of the specific blocks used in the model.
