What are you talking about? I understand you may not have taken statistics but really? You suppose that the current grid in your city is designed to allow every household to turn on every appliance they own, all at once? It’s called probability. Maybe if you ran the power company, it would be prepared for the unlikely circumstance when every person on the planet plugged in their car but I can assure you your local power station will never be prepared for that eventuality.
Do you also not believe in Atoms? Are you not buying that the earth revolves around the sun?
A Thermal Efficiency can be easily calculated for any Heat Engine. Internal Combustion engines are Forward Heat Engines. The Steam Turbines in most power plants are heat engines as well. It does stand to reason that the Thermal Efficiency of these devices can be calculated and compared right? This is first year engineering.
Modern, hydro-carbon burning power plants are, on average, 35% (Non-Super Critical) to 60% (Combined Cycle) efficient. By “Efficient” I of course mean that, of the available energy in the fuel being used, some fraction of this theoretical number is actually yielded as work; that fraction is the efficiency of the device.
A modern gasoline engine is approximately 25% efficient. That’s pretty good; the number was substantially lower even 20 Years ago.
Line-drop due to power distribution is not negligible but relatively low; between 5%-8%. Out of the box, even an area serviced by a decrepit coal-plant with an inefficient grid has you doing as good as or better than a Gasoline powered car in an EV, not counting the other obvious advantages that only British pseudo-science could ignore with a straight face. That’s with both an EV (Yes, don’t be a twat; it stands for Electric Vehicle; differentiation if required; do we really have to tip toe around some negative connotation you’ve acquired?) and an IC vehicle at 55MPH. In reality, most people often have to stop and remain stopped two seconds to two minutes or even longer.
Regenerative braking and simply not running an engine during this time are easily worth a 25% difference in fuel consumption when one isn’t in motion non-stop; whether that fuel is consumed the night before by a power station or this instant by the engine makes no difference. Hell, 25% is the difference between the City and Highway rating of the VW Rabbit. That difference does not even account for an EV’s regenerative braking and lack of an idling engine.
Everyone:
To sum it up; hybrids get better mileage than conventional cars right? (Shake your head yes) You like saving money? Sure you do. Imagine if you could take the 25% thermally efficient engine in your hybrid and replace it with a 50% Thermally Efficient engine! Well you can't retard! So plug your car into the wall and get an equivalent (based on current fuel prices in the US) 190MPG. Get it? Good.
Me? I wouldn't mind seeing a Tesla Roadster look-alike. I highly doubt it'd be boring.
