Like all buildings should have some kind of standard for solar panel placement added or retrofitted with a very low cost modular mounted frame. Then, when you get an appliance it has a built in battery and comes paired with the right size panels that are sized for each region in the local store/wholesale distribution layer.
The whole scheme is hybrid in the first phase of a decade or so while edge cases and issues come up, like how to handle high rise buildings. Then the burden of grid infrastructure is less of a burden on the poor in total because few people are going to replace all appliances in this instance unlike those that can install a whole house solar system. The entire thing would be more incremental and serviceable over time with modularity. It is less efficient overall compared to a single controller and battery but doesn’t require large upfront cost or repurchase later down the line.
Another thought I’ve had that warrants a separate comment: Why in the hell arent we wiring DC circuits into houses? Almost everything converts ac to dc these days via a power supply. Why not cut that out and have a larger more efficient main dc rectifier at the panel and run that to USBC ports around the house?
DC power is very inefficient at low voltages. It’s hard to get 5v to stay steady at distances over about 10 feet
Oh fair enough. Amd i guess you wouldn’t want to pump 30v or whatever and use a buck converter because now all we have are heat generators.