I'm not 100% sure of this myself !, Its something I thought about several years back and discounted it for the reasons you mentioned.Tinbum wrote: ↑Sat Aug 06, 2022 12:06 am Not sure this is a good idea, but still thinking about it.
I see the new batteries are 120Ah but your Pylontechs are 50Ah. Are you proposing not to fully charge them and / or how are you going to keep them in balance with the pylontech cells?
Edit- i think i would have been inclined to remove one growatt cell.
Then I went down the route of utilising an overvoltage DC auto disconnect for the Pylontechs so I could use the higher charging voltages. This worked fine for a few years but a few months ago the voltage sensing relay contacts froze because of DC going through them to energise the DC disconnect relay so I decided to abandoned that and go back to the lower charging voltage. Because this has effectively reduced the total capacity of my battery banks, this might cause me issues in winter, especially with my new air to air heatpumps which I am expecting to use on the battery banks outside of the cheap rate period.
So, I had another think about the original plan and I now reckon its workable, but will need to closely monitor the extra cell voltage.
You are correct that the Pylontech's I have are 50Ah, but I have a stack of 8 of them in parallel so to match the cell size I need a 8 x 50Ah = 400Ah one. Then thinking about it a bit more, if I had a smaller Ah cell the voltage would increase and decrease faster and very easily go overvoltage or undervoltage. But if I used a larger cell, then the voltage would rise and fall slower so if I can balance the new cell at the midpoint it would very unlikely to either go over or under voltage. Balancing at the midpoint is easier said than done, but I can get it initially in the ball park, then alter it manually as needed whilst monitoring the voltage of the cell verses the whole battery bank voltage.
I have bought 4 x 120Ah cells which will be set up in parallel to give a single 480Ah cell and it is this cell which will be placed in series between my Pylontch's and one of the main DC bus bars of my battery banks. This cell Because of the increased size, assuming its balanced correctly, I am expecting the voltage of the cell to remain within a small voltage range, say 3.2v to 3.5v.
That should allow me to increase my charge voltage back up to 56v or so with the Pylontechs remaining happy at around 52.5v. The added battery will add direct useable capacity of 1kWh and indirectly an additional capacity of 7kWh from the Growatt batteries due to the increased charging voltage.
There is another couple of advantages too,
- The typical DC operating voltage will remain circa 3v higher so typically less current flow, so less cable losses.
- In Summer the Pylontech's hardly get exercised because the voltage does not typically fall low enough to get them operating, but the LFP chemistry of them should have double the cycle life of the LMCO chemistry, so this should get them into the operating zone and extend the operating life of the Growatts.
- I'd still lose about 3kWh to 4kWh so not really worth it.
- The work involved would be horrendous and I would have to replace two of my active balancing boards, whereas the new cells just go into the existing space where my now obsolete overvoltage disconnect relay was. I don't even need any additional cables.
) 
