No, it won’t if it’s a solid state battery - solid state batteries barely even notice such a charging rate, their temperature might change by half a degree from this monster charging rate.
“You can’t supply the power because lines”
Modern large commercial buildings already suck down this amount and more.
“The grid overall can’t take 1MW”
So, the 1,000 MW nuclear reactor can’t provide 1MW? How about a reactor station with 4 units cranking 4000 MW? How about we add another 1000 in renewables? How about another 800MW with a single gas turbine? How about adding roof solar and a battery bank below ground for the charging station to supplement the power? We haven’t even touched hydro or geo yet. Making power is not a problem, and we’ll build out the power as we need it.
Modern large commercial buildings already suck down this amount and more.
And how mamy cars in said building? How many will be allowed to charge at the same time?
Should we expect same grid for large commercial buildings and rural charging stations?
Even if so we have ways to calculate the power going in and coming out, and if there’s an imbalance kill everything, that’s how gfci and arc fault breakers work.
If the insulation doesn’t insulate, that is a risk indeed. There would probably have to be some detection mechanism for damaged insulation on top of regular maintenance checks. I don’t know if some wiring in the insulation could measure the integrity. Maybe if the voltage would oscillate regularly, picking up on the induction of those changes might allow detecting if the shielding is inconsistent before it actually becomes threat? I only have half-remembered bits of an intro course on electrical engineering years ago, so maybe I’m way off.
Stuff I’ve heard on naysays:
“The battery will blow up!!!”
No, it won’t if it’s a solid state battery - solid state batteries barely even notice such a charging rate, their temperature might change by half a degree from this monster charging rate.
“You can’t supply the power because lines”
Modern large commercial buildings already suck down this amount and more.
“The grid overall can’t take 1MW”
So, the 1,000 MW nuclear reactor can’t provide 1MW? How about a reactor station with 4 units cranking 4000 MW? How about we add another 1000 in renewables? How about another 800MW with a single gas turbine? How about adding roof solar and a battery bank below ground for the charging station to supplement the power? We haven’t even touched hydro or geo yet. Making power is not a problem, and we’ll build out the power as we need it.
There’s some parts inbetween. You would need an extra line just for the charging stations.
Though, a capacitor bank (maybe where the fuel tank was) would be viable.
And how mamy cars in said building? How many will be allowed to charge at the same time? Should we expect same grid for large commercial buildings and rural charging stations?
What about defects in the machine or car? Could that lead to people being struck by lightning coming from the box next to their automobil?
Gas powered cars catch fire all the time
Fairly unlikely, we engineer things to fail safe.
Even if so we have ways to calculate the power going in and coming out, and if there’s an imbalance kill everything, that’s how gfci and arc fault breakers work.
If the insulation doesn’t insulate, that is a risk indeed. There would probably have to be some detection mechanism for damaged insulation on top of regular maintenance checks. I don’t know if some wiring in the insulation could measure the integrity. Maybe if the voltage would oscillate regularly, picking up on the induction of those changes might allow detecting if the shielding is inconsistent before it actually becomes threat? I only have half-remembered bits of an intro course on electrical engineering years ago, so maybe I’m way off.