Yes, you could easily build a home energy storage system with these. The question is are these the best, most cost effective batteries to use.

There are many suppliers of 12v drop in replacement batteries on the market.

I’m using 9 of them to “electrify” my Aistream, entirely replacing the propane system with electric only appliances that can run on (variously) 12, 24, 48 DC or 120v AC current.

The reason for the various DC voltages is because some appliances are most readily available is certain voltages. Some high kW loads are best at higher voltages (12v appliances consuming a lot of power need huge copper cables).

A lot of modern electronics will accept 12v, and conductor size is not an issue.

A Powerwall would be great but they are a bit pricey and electricians authorized to install them will only put them in “normal” residences. they are not tested or certified for mobile applications.

Combine with my Ford Lightning, which has a 130 kWh battery, and a modest solar array, I could be off grid for weeks or months at a time. My water/waste tanks (~25 gallon x 3) will be much more of a limitation than power now.

The power will be managed with some interesting electronic gear.

I’ll be driving all over the US within a few months, anyone is welcome to PM me to see when I’ll be in your region. Would be happy to meet in person and show the system and the economic of going electric vs gas (propane or NG).

@ peskanov:
First of all it depends on the switching mode incorporated on the individual battery itself; is it cell to module to pack or is it as applicable to LFPs - stack to pack. Independent of the applicable chemistry it is more so a question of the employed tech. platform. I would take for granted that the battery in question has a BMS integrated within itself. In that case the adverse effect on a individual cell would be negligible as overcharging of an individual cell would be avoided.

The individual BMS in each 12v module keeps its cells within the high / low range. You can also have a BMS at the white pack level, managing charging to individual 12v modules.

The limitation is that most of the BMSs can not handle putting more than four 12 batteries in series, limiting your system voltage to 48v.

You can find or order 12v drop-in batteries that have more robust BMSs that can be wired up to 72 or 96v

Older GEM vehicles, for example, run at 72v.

OK,
While we are at it, can anyone recommend a DIY manual (or website) for solar cell installation, either for a "balcony" sized one of say 600 watts, or a roof sized one of ~3kW.
(With or without storage).

I will publish diagrams, photos and a description of my system when it’s finished. This will include not just a description of the BMS and balancing, but all system loads and performance characteristics.

Bowlus produces the only all-electric trailer I’m aware of. At 300k, it’s out of reach for most folks.

With the right gear, e.g solar array, and. An electric tow vehicle, you’d be able to go to the end of a very long road, far off grid, set up camp, and after a week or two, drive back to civilization on a fully charged battery.

Compared to having to end your trip because your ran out of propane, that’s pretty cool.

Of course, a resourceful person could also make good use of a setup like that at home in your driveway.