Thank you, Prof FGL, your video is really amazing & you explain clearly, I enjoy your video so much. Now i understand the concept of CCT and dynamic state simulation. I'm learn some insight from this video, please help me to correct my statement below: - Oscillations that occur at the rotor angle remarks by OK if the rise and fall of the wave are stable - The speed of the generator's rotor proportional to the rotor angle - If the isolation time of the CB (Switching event's time) is very long (longer than CCT), then the system will be unstable. The rotor speed initially (after switch event) will be to initial condition, but will be inccrease and accelerating until lossing the synchronism. Result --> The winding will be burned and the generator will be failed (?) - To compensation unstable system, we can set the AVR, Governor, and Energy Storage System. I have search it, but still didn't understand, may you have the easy to read/watch reference about it? - The synchronous machine will be lossing the synchronism if the rotor angle reach 180 degree so the rotor speed is increasing. - The focus/core analysis of the dynamic simulation is "the range (min vs max)" and comparison from the initial that representing "the steady state comeback" May we have the script DPL? Because i can not open the script with pF19 format on your Github repository. (update: solved, i'm already watch your another video of "CCT in TL with DPL script") Thank you in advanced, Maulina.
Thank you, Prof FGL, your video is really amazing & you explain clearly, I enjoy your video so much. Now i understand the concept of CCT and dynamic state simulation. I'm learn some insight from this video, please help me to correct my statement below:
- Oscillations that occur at the rotor angle remarks by OK if the rise and fall of the wave are stable
- The speed of the generator's rotor proportional to the rotor angle
- If the isolation time of the CB (Switching event's time) is very long (longer than CCT), then the system will be unstable. The rotor speed initially (after switch event) will be to initial condition, but will be inccrease and accelerating until lossing the synchronism. Result --> The winding will be burned and the generator will be failed (?)
- To compensation unstable system, we can set the AVR, Governor, and Energy Storage System. I have search it, but still didn't understand, may you have the easy to read/watch reference about it?
- The synchronous machine will be lossing the synchronism if the rotor angle reach 180 degree so the rotor speed is increasing.
- The focus/core analysis of the dynamic simulation is "the range (min vs max)" and comparison from the initial that representing "the steady state comeback"
May we have the script DPL? Because i can not open the script with pF19 format on your Github repository. (update: solved, i'm already watch your another video of "CCT in TL with DPL script")
Thank you in advanced, Maulina.
Your Lectures are really amazing
Thanks very much for your kind comment, I appreciate it! Best regards, FGL
Excelente y muy didactica presentación. Gracias profesor Gonzales-Longatt
Muchisimas gracias!!! Saludos. FGL
Excellent sir
Thanks so much, please remember to subscribe to the channel and you will receive more information. Best regards, FGL
Very good
hi sir,
I cant find the dpl code.can anyone help me or send me the link ,please?
and is it work for 39 bus ieee?