Their math is WAY off. A typical BEV battery pack for 150 mile range is about 30 kW-hrs. Let's say the charging efficiency is about 85%. Therefore, you need to pump about 35 kW-hrs into it. To do that in 5 minutes you need a charger which can deliver 420 kW. With a 150 kW level 3 charger you can charge it in 14 minutes, not the 24 minutes the article stated. To charge a battery pack of three times the capacity ( 450 mile range ) in 5 minutes you would need about 1.25 MW. For comparison purposes a subway train starting requires 4 to 5 MW, and yet we have no problems delivering this sort of power. I'm not really seeing what the issues are here. We can and do regularly have MW class loads on the grid, starting with your local superstore. Also, the higher the range of the EV, the less the need for a fast recharge. Figure if you have 450 mile range, by the time you drive that distance, you'll likely be stopping at least 30 minutes to eat and rest anyway. So long as you can refill the tank in that time, all is well. 30 minutes to refill a 90 kW-hr battery pack implies only about 210 kW. Oh, and if the chargers incorporate supercaps, then you can get by with a much smaller average load on the grid while still delivering energy to the BEV battery as fast as it can absorb it. These are all technical issues which are easily fixed. If we go to extreme aerodynamics like the
E-Tracer, instead of boxes like the Chevy Volt, you can get two or more times the range easily from any given battery pack.
Left out of the article is the fact that best case, hydrogen is going to cost the equivalent of $5 per gallon gasoline, and also that hydrogen cars
still need a small battery to deliver the power peaks needed for acceleration. Electricity on the other hand can provide 150 mile range for a couple of dollars. That fact alone, plus the need to essentially build from scratch hydrogen infrastructure ( at an
estimated cost of $500 billion! ), dooms hydrogen. I won't even get into the dangers of putting something explosive and at high pressure into vehicles which the majority can't even competently operate, or that after researching fuel cells for 50 years we still haven't figured out how to get the costs per vehicle under something like $1 million. The whole reason for starting fuel cell research was the fact that batteries of the time just weren't up to the task. All we had were lead acid. Battery development has since overcome all of the obstacles-range, weight, recharge time. The only reason the fuel cell program hasn't been killed yet is politics. The amount of money thrown at what is now a lost cause is embarrassing. If the program were ended now there would be lots of questions as to why it was allowed to continue so long without results, so it goes on like so many other pointless ventures. Besides the supposedly faster refill time compared to BEVs ( and I've already shown that's more or less a wash at this point ), exactly what do fuel cells bring to the table besides increased complexity, increased operating costs, lower efficiency, etc? I'm not seeing one area where they're actually markedly better than BEV. I'm seeing a whole lot of places where they're much worse.
Additionally, the whole fast charge/refill thing is a red herring. It has been from day one. Even Chevrolet admits that now by saying the 40 mile range of the Volt on battery alone will cover most trips, even after they said for years that the 100 mile range of BEVs was "inadequate". How many times a year do most people take a trip where they need to refill enroute? Most driving is commuting or running errands.
