Loadshedding affordable battery setup?

Nicely done, I would add "gel" into the LA group aswell.

I would also adjust the wording about cycling lithium deeply affects the life cycle because it isn't really true. 3000 cycles is rated at 100 DOD at 1C (in most cases), so they are absolutely hammering the batteries (100A) in their tests then after 3000 cycles you still have 80% capacity left. I would emphasize the issue with LA's though and that they don't like heavy loads.
Also add in the Peukerts law that effects LA's but not lithium.

Another thing to add is the recharge time of LA (long absorption) vs LFP (no absorption).

Hope that makes sense?
Thanks. That is form my blog site. I'm still actively editing it and I want to add some additional information.


This is how I came up with that statement:

I looked at this:

(see attachment I'm posting form the mybb app)

It shows number of cycles going up as depth of discharge goes down on both NMC and LFP.

Unless I missunderstood? Screenshot_20230222_144920_Chrome.jpg
 
Oh cool they sell em lose as well:


Def gonna pick one up on payday, and sell my 800W
 
Nothing, because it's not provided as part of the specs on the site that sells it.
Yeah I. Im not 100% sure about the 15a. Geewiz needs to confirm.

It looks like this inverter :

Is that a 10a and 15a at the back? Can't tell for sure.
 
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Thanks. That is form my blog site. I'm still actively editing it and I want to add some additional information.


This is how I came up with that statement:

I looked at this:

(see attachment I'm posting form the mybb app)

It shows number of cycles going up as depth of discharge goes down on both NMC and LFP.

Unless I missunderstood? View attachment 1480715
Sorry, got you mixed up with other poster. :)

You aren't misunderstanding, I just think that data is outdated. Where do they get 600 cycles from when you get specs from manufactures of 3000 cycles at 100% DOD with 1C load?

Case in point:
1677070921308.png

Admittedly it doesn't mention DOD but I'm sure if I look hard enough I'll find something.

edit: ok found one:
1677071089135.png
 
Yeah I. Im not 100% sure about the 15a. Geewiz needs to confirm.

It looks like this inverter :

Is that a 10a and 15a at the back? Can't tell for sure.
1677071128093.png
 
Nicely done, I would add "gel" into the LA group aswell.

I would also adjust the wording about cycling lithium deeply affects the life cycle because it isn't really true. 3000 cycles is rated at 100 DOD at 1C (in most cases), so they are absolutely hammering the batteries (100A) in their tests then after 3000 cycles you still have 80% capacity left. I would emphasize the issue with LA's though and that they don't like heavy loads.
Also add in the Peukerts law that effects LA's but not lithium.

Another thing to add is the recharge time of LA (long absorption) vs LFP (no absorption).

Hope that makes sense?
I am still editing and adding to that BTW.

Was just supplying a pdf version as per Zolly's request ... didn't mean to steal or step on toes.

Please continue and add what Wingnut suggests. supply us a pdf once done :thumbsup:

Great work by the way ;)
 
Sorry, got you mixed up with other poster. :)

You aren't misunderstanding, I just think that data is outdated. Where do they get 600 cycles from when you get specs from manufactures of 3000 cycles at 100% DOD with 1C load?

Case in point:
View attachment 1480721

Admittedly it doesn't mention DOD but I'm sure if I look hard enough I'll find something.

edit: ok found one:
View attachment 1480725

Yeah so 80% DOD means you need to leave 20% in the tank in order to get 2000 cycles.

Which is why recommend 20% in my blog post.

You should get more cycles the lower you DOD...

I suspect that manufacturers may be lying about the amount of cycles. No one is counting cycles.
 
Yeah so 80% DOD means you need to leave 20% in the tank in order to get 2000 cycles.

Which is why recommend 20% in my blog post.

You should get more cycles the lower you DOD...

I suspect that manufacturers may be lying about the amount of cycles. No one is counting cycles.
but it's not like you're killing it by going lower like in LA though. It's just the voltage drops quickly at the bottom of the curve and you may end up with the bms disconnecting and having to faf with trying to wake it up again so 20% is a safe buffer zone.
 
but it's not like you're killing it by going lower like in LA though. It's just the voltage drops quickly at the bottom of the curve and you may end up with the bms disconnecting and having to faf with trying to wake it up again so 20% is a safe buffer zone.
I didn't say that you are killing them. I just said:

"Note that the life expectancy in terms of cycles is affected by how deep you discharge a battery. The less deeply you discharge it, the more cycles you can expect to get from them. For this reason, it is a good idea to make sure that the power station that you opt for has more watt hours (Wh) of available power than the amount you would actually be using, so that you don’t deplete it all the way to 0% before recharging it."

I guess I could re-write this to make it a bit clearer.
 
I didn't say that you are killing them. I just said:

"Note that the life expectancy in terms of cycles is affected by how deep you discharge a battery. The less deeply you discharge it, the more cycles you can expect to get from them. For this reason, it is a good idea to make sure that the power station that you opt for has more watt hours (Wh) of available power than the amount you would actually be using, so that you don’t deplete it all the way to 0% before recharging it."

I guess I could re-write this to make it a bit clearer.
You said a cycle is 100 to 0 and back to 100. So if you are only half discharging then that is only half a cycle so life expectancy doesn't change, you just take twice as long to get there.
 
1677083520211.png
I am thinking of building something like this for myself.
Just without the solar. A hybrid inverter can charge its batteries
from grid power. So basically a massive UPS that is able to
power the house.
 
View attachment 1480863
I am thinking of building something like this for myself.
Just without the solar. A hybrid inverter can charge its batteries
from grid power. So basically a massive UPS that is able to
power the house.
that is damn nice and you can put a cover over it to protect it if outside .that one is made to be lifted safely by a forklift or trolley jack
 
You said a cycle is 100 to 0 and back to 100. So if you are only half discharging then that is only half a cycle so life expectancy doesn't change, you just take twice as long to get there.
do you know anyone that has actually tried a claim versus cycles with a distributor .i wonder if any have been entertained yet ,its still early days
 
do you know anyone that has actually tried a claim versus cycles with a distributor .i wonder if any have been entertained yet ,its still early days
Still early days but anyway, "affordable" LFPs only have up to a 3 year warranty, so the warranty will be up before the cycles anyway. The main thing to worry about is a cell going bad, not so much it losing capacity imho.
 
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