Yeah if you've got home charging it's not a real issue. We use 240v here in Aus so you can pull quite a bit out of domestic outlets before having to get serious and generally overnight charging to top up the day's commute would be fine.
So it wouldn't be a fast charger on every street, and you could always enforce limits by time of use pricing to put a dampener on peak loads.
I just wonder if utility planners might get caught with their pants down on this one. Like, could you say 5 years ago chargers might run to 800kW?
I’d say grid planners everywhere are under serious strain. The demands for air conditioning in public and private spaces are getting higher, the number of household electronics is climbing along with data centers constantly consuming ever more amounts of electricity…now we add EV charging to the mix.
Yeah if you've got home charging it's not a real issue. We use 240v here in Aus so you can pull quite a bit out of domestic outlets before having to get serious and generally overnight charging to top up the day's commute would be fine.
So it wouldn't be a fast charger on every street, and you could always enforce limits by time of use pricing to put a dampener on peak loads.
I just wonder if utility planners might get caught with their pants down on this one. Like, could you say 5 years ago chargers might run to 800kW?
I’d say grid planners everywhere are under serious strain. The demands for air conditioning in public and private spaces are getting higher, the number of household electronics is climbing along with data centers constantly consuming ever more amounts of electricity…now we add EV charging to the mix.
Yeah, I’d say they haven’t been able to keep up.