That’s not correct. What you need for long distance is high voltage, and it’s easier/cheaper to step up/down AC voltage than DC. If conversion costs were eliminated, DC is actually more efficient.
If you get to even longer distances of over 300+ miles, DC’s efficiency becomes worth the additional cost of conversion. There are many HVDC interregional connections.
At distances closer to a quarter wavelength you can also have some pretty gnarly reactions if a line goes down. That’s why stuff like the Kahora Bassa power plant uses HVDC for transmission.
Yep, exactly why it works so much better over distance than DC.
That’s not correct. What you need for long distance is high voltage, and it’s easier/cheaper to step up/down AC voltage than DC. If conversion costs were eliminated, DC is actually more efficient.
If you get to even longer distances of over 300+ miles, DC’s efficiency becomes worth the additional cost of conversion. There are many HVDC interregional connections.
At distances closer to a quarter wavelength you can also have some pretty gnarly reactions if a line goes down. That’s why stuff like the Kahora Bassa power plant uses HVDC for transmission.