Grid New 33 Bus PV Wind - STATCOM MATLAB Simulation

 This is the project in simulink. It is now compiling.

You can see that there is no warning in this file and now it will, I can show you that this is the 33 bus system. I connect wind farm or wind project to this bus path and also I connect the solar project to this bus bar and connect the STATCOM project to this bus bar. Based on your request it is connected.

All of these projects to one of the selected busses, so it is bus 22 to where you can see all of them are connected and working with the STATCOM the wind farm and also the solar project wind farm is 2 megawatt doubly fed induction generator (DFIG) wind turbine the statcom is for compensating of reactive power it is +-3MW and PV that is point 4 or point five megawatts.

These are the signal of a screen that would show you the signal output after the simulation, you can see that the output of the one of the Scopes power, current voltage is flowing from. And you can see that this is the slack bus top of the figure of this model. This is 11 kilovolt 50 hertz swing bus was and then is connected to the 1st bus and so on.

These scopes are for voltage and current monitoring. You can see that all of the buses are connected to the monitor that is on the right side of this project. From here you can see the current, voltage from the mux current voltage value can be monitored. It can be recorded also simulation takes time due to the complexity of this model.

And so PV model. For example, you can see the PV arrays for these arryas It's 100 mega kilowatt kilowatt, 100 kilowatt can see one, two, three, four all working well and to give a good voltage output. Sinusoidal, we can see the Statcom. This is model of the Statcom, in which give us plus minus three megawatt 11 kilometers on the model.

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And so as you can see, all are connected well and you can see the controler of it and parameter of each model and component and so go back to the system again, Here is the fault that can be removed any time. It is the fault of switching from point 25 second and for 20 milliseconds 200 milliseconds and this is point 45 seconds again.

So the duration of the fault is 200 milliseconds. It is three phase fault to the ground with impedance or smaler resistance is one multiplied by e power to the six ground resistance point 01 and fault resistance point 4 this is fault to show the response of the system. In this case, you can see tthe voltage at this time,

This time the response of each component of the system based on that you can see here the power and irridiance that is constant VI of the grid PQ of the system appears here, that is almost 200 Kilo Volt, current, voltage, is working well, after fault. 

 After simulation is finished, you can see the output so the system Q MVar and also power and V voltage and Current, and for load flow you can take this one and go for load flow and you can see that its look complete it is the load flow window compute can see that it will show results of load flow for all of the elements

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