Do you know what chemistry the house batteries are? LFP don't degrade with cycling, in fact, they actually improve if the cycling is within sensible cell voltages.
We have the opposite problem but same resulting dilemma. Newish build, 2018, so reasonably well insulated but designed for a gas combi boiler. Absolutely nowhere to put a hot water tank.
LOL... I suspect @johnb80 knows
His DIY system was built with 16 x 280 Ah EVE LiFePO₄ cells 
Ah, very nice system, no idea why he is concerned about "the potential degredation of batteries," as LFP cells don't suffer cycling degradation as long as the voltages remain withing the 3 V min and 3.6 V max.LOL... I suspect @johnb80 knows
Mine isnt such a posh housing as Gadget Geek's, it was a very tight space and this toolshed from Amazon worked well.
It is fastened back to the wall, two conduits, one on each side connect to the house. The one on the far side is the electricity supply, the one that can be seen here carries the data cables. The ventilation fan can be seen at the top.
In the lower half there are 16 x 280 Ah EVE LifeP04 cells, theyre stood on vivarium heater mats and their enclosure is insulated. The heater mats are used (rarely) in winter time to keep the temperature above 5 degC...
agree - as I commented earlier in the thread, IMHO calendar ageing will be as big a factor in degradation as cyclic usage.
Just had my email ref OIG.. cheap rate dropped from 7p/kWh to 5.2p, standard rate dropped from 29.5p to 27.7p but standing charge increased by 2.63p. I'm in Devon.
LFP cells don't calendar age either, that was nonsense put out by the fossil fuel people.
Were/are you on the flexible rate, or fixed for 12months
Variable. They give an option to fix but its 8.2p cheap rate so im sticking..
I think you'll find all batteries suffer by varying degrees of cycling degradation. But its true, keeping it above 10% does help . I've put a threshold of 8% minimum on mine.
Everything has an end of life, even amazing units like me :lol: but the calendar life thing doesn't really occur the way it does for lead acid. Sit a lead acid battery on the shelf after the acid has been added and no matter if you have it connected to a maintenance charger for the 10 year period, at that point, it has very little remaining capacity.Hmm... so, you are saying that LiFePO4 cells don't have calendar ageing and improve with cycling within correct voltage range. That means they will last forever and get better as they mature - TBH I find that hard to believe
We still have regular customers who get their batteries serviced ever 3 to 4 yrs, they cycle every day and during ever day, 365 days a yr and now over 12 yrs old, and they still deliver the manufacturers advertised capacity at the 2C load the manufacturer used to rate the battery capacity, still holding better than 3 V under load and over 12 yrs old now.
Youre probably right, it's just a gut feeling, all of this tech, looking after itself with Home Assistant getting the weather forecast, watching the outdoor temperatures and even the average daily consumption map 7 days per week and then deciding how much to dump into the grid and at what rate.
I used the figures that EVE supplied and keyed them straight into my active balancer. The active balancer shows SOH 100% and this is it's 5th year of operation.
It would make more sense to me, theyre charging more for electricity at those times therefore they can afford to pay more.
