alt Hacker News>the solution came with rearranging and adjusting the cells to ensure the packs worked more efficiently.
>Glubux even began disassembling entire laptop batteries, removing individual cells and organizing them into custom racks. This task, which likely required a great deal of manual labor and technical knowledge, was key to making the system work effectively and sustainably.
This kind of thing is cool as a passion project, but it really just highlights how efficient the modern supply chain is. If you have the skills of a professional electrician, you too can spend hundreds of hours building a home battery system you could just buy for $20k, but is less reliable.
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$20K for a home battery backup for someone capable of doing DIY would be far larger than what I assume he has built here. AFAIK the cheaper end is around $340 (2016) per kWh at 20 kWh that would be $6,800. In 2025 at $100 per kWh it would be $2K. If it's worth it would largely depending on a persons post tax required rate of return and how long it would take.
That guy who was gaming a bug in the lottery in New England, near as I can figure was making about $20-30 an hour for his troubles. I suspect he may have made more off of selling the movie rights than off of the lottery.
He made more than he would have working retail for sure, but maybe he could have done better with another job if he weren't fixated on sticking it to the Man.
This battery thing feels a bit like the same sort of sentiment.
That said, any task you can do while talking to a friend or binge watching a TV show cannot be accurately accounted for in cost by just how much the clock moved.
There HAS to be a way to automate this process and make it work at scale.
You can read it the other way around: with labour and knowledge, you can save $20k.
And with even more passion and commitment and with business skills, you could earn $20k at a time.
> but it really just highlights how efficient the modern supply chain is
This "efficiency" relies on the assumption of writing off the entire battery set at sale. That's not impressive at all.
> spend hundreds of hours building a home battery system
That is, in my opinion, the worst feature of this entire project. It is cool and nice and fun. But it takes a lot of time to research, acquire skills, get tools and build.
> you could just buy for $20k
I agree with a broader point but that particular price is extremely high and far from reality.
A reasonably good 18650 cell has a capacity of ~12 Wh (~3300 mAh * ~3.7 V = ~12.2 Wh). The battery mentioned in the article consists of "more than 1000" such cells. Let us assume 1200 cells. That would mean it has a capacity of ~14.4 kWh (1200 * 12).
It is possible to get a pre-assembled steel battery case on heavy-duty wheels for 16 LiFePo cells, with a modern BMS with Bluetooth and wired communication options, a touchscreen display, a circuit breaker and nice terminals for ~ $500. And it is also possible to get 16 high quality LiFePo cells with a capacity of ~300 Ah each, like EVE MB31, for significantly less than $100 each. This means that for less than ~$2000, it is possible to get all components required to assemble a fully working ~15 kWh LiFePo battery.
- That assembly would take a few hours rather than weeks.
- It will have new cells rather than used ones.
- It will be safer to use than a battery with Li-Ion cells.
- It will likely take much less space.
- It will be easy to expand.