Say an electric car comes with a small sealed and fixed battery that gives up to say 100 miles of range. This is sufficient for most uses (to work and back, may be getting around the city, grocery trip etc). Another slot in the car that is usually empty may be “filled” with a battery along the highway while on a road trip. Reaching the end of range? - just swap out the “filled” battery.
This way, a customer gets to buy a cheaper car(smaller battery means lower cost). Buyer need not worry about getting stuck with a “aged” battery swapped with their good battery because swapping only occurs on the secondary battery that they don’t own.
Environment feels a little better - users don’t hoard Lithium batteries that they do t need all the time.
Businesses have a new way of earning money by selling subscriptions to such swap batteries.
The swap battery stations may be easily setup everywhere easier than full-on charging stations. The batteries themselves may be charged with renewable energy in huge factories and distributed to remote swap stations.
What am I missing?
Could be useful to add some range quickly.
To be viable I'd think a couple key questions,1) How often do electric car drivers need this fast top-up? 2) How would this compare time to power vs pugging into a fast charge for 5 min 3) Could it deliver a significant vehicle cost saving reducing the main battery requirements?
Regarding the "charged with renewable energy in huge factories and distributed to remote swap stations." I would think getting the grid more green generally is the better and more realistic option.
However, if I go get the battery swapped out, then the "new" unit I get might be a battery that's 5 years old and is down to only 70% max life. Rinse and repeat. I never know what battery I get and it might significantly effect my possible range. But I paid for a brand new battery... so that's not fair.
A bunch of EV companies have looked at this and run into this problem of consumer sentiment. Also the system for swapping batteries needs to be automated and totally bullet proof. It cannot fail to swap a battery, ever. Which is not easy when you're talking about some sort of robot that needs to move a thousand pounds of battery.
Also what do you do with cars of different makes and models? The charging infrastructure is already challenging enough. Would you have a Ford battery swap station, separate from Tesla, separate from Rivian? If not that, you need to get every company AND every make/model of vehicle to be totally standardized.
For battery swaps to be really effective, it needs to be faster than charging - so almost as fast as filling gas. And have just as much range. So it can't be a 100 mile swap, it'd need to be at least 300. Otherwise someone driving slightly longer distance would need to be stopping to change battery every hour. Also it needs to be no more expensive than what consumers already have.
At the end of the day, battery swapping technology makes sense - but not for the average consumer. It's a great solution for fleet vehicles. Typically they are standardized single model of vehicle, the drivers don't care about the battery age (it's not their car), vehicle downtime matters (depending), and they have a central depot. Think about taxis for example, the depot can change the battery between driver shift changes.
> What am I missing?
A 100 mile battery is not small. Meaningful range extension would require a battery that is large and heavy and difficult to handle. Then you'd also need to quickly generate industry concensus on a shape and interface or there's too many variations and stocking becomes difficult.
It is unlikely there would ever be extra physical batteries, as the battery pack would have to contain the same current capacity as the primary battery pack to meet the current rating of the motors. The battery pack makes up most of the weight of an EV.
100 mile range electric car batteries are not small, on the order of a couple hundred pounds.
> Another slot in the car that is usually empty may be “filled” with a battery along the highway while on a road trip. Reaching the end of range? - just swap out the “filled” battery.
Okay, so this battery slot you are proposing keeping normally empty, but filling and swapping for road trips. This is presumably a not-small battery, like the main battery on a current Tesla, maybe a bit smaller to account for the nonswappable one. So probably something on the order of 1,000 pounds.
Not something you swap quickly, easily, or without special equipment.
Since it’s one time use I think we could use some really powerful chemistries that wouldn’t weigh as much. Aluminum something maybe?
I even added four wheel drive to my last truck purchase because I got stuck once over the past four years. Not rational but I hate getting stuck.