AGS settings for Outback FM60

Re: AGS settings for Outback FM60

From an earlier post I made here:

A 48 Volt Bank at resting voltage at 77F is around 45% state of charge (see generic bank voltage chart from Battery FAQ--12.00 volts).

However, the actual resting voltage is really dependent on the initial specific gravity of the electrolyte fill...

So, what was your "full charge" Specific Gravity?

One thread here
Another thread here

So, to pull from earlier posts:

Well mixed electrolyte is important--so if you notice all cells not coming back to "full charge" level of s.g., then there is a good chance that "mixing" (equalization) will bring the s.g. back up to your logged readings (keep these as your "good batteries" / "fully equalized" numbers.

The amount of variation you are seeing is not that great (less than 0.030 between all cells). And having "high" s.g. is not always a good thing either.

I ran across this page on why different types of batteries have different starting s.g. fills... Is pretty interesting:

Specific Gravity vs Applications
1.285 Heavily cycled batteries such as for forklifts (traction).
1.260 Automotive (SLI)
1.250 UPS – Standby with high momentary discharge current requirement.
1.215 Geral applications such as power utility and telephone.

As mentioned earlier, the specific gravity (spgr.) of a fully charged industrial battery, or traction battery, is generally 1.285, depending on the manufacturer and type. Some manufacturers use specific gravities as high as 1.320 in an attempt to gain additional Ah capacity, but at the cost of a shorter cycle life.

...

Higher Gravity = vs Lower Gravity =
More capacity / Less capacity
Shorter life / Longer life
Higher momentary discharge rates / Lower momentary discharge rates
Less adaptable to "floating: operation / More adaptable to "floating" operation
More standing loss / Less standing loss

Also on that page is the formula between cell resting voltage and specific gravity:

Specific gravity = single-cell open-circuit voltage - 0.845 (example: 2.13v – 0.845 = 1.285)
Or
Single-cell open circuit voltage = specific gravity + 0.845.

So, if you are getting 46 volts after resting, if the formula is correct (and your battery is around 77F) your specific gravity should be:

• 46v/24cells - 0.845 = 1.072 (dead?)
• 47v/24cells - 0.845 = 1.113 (~20% state of charge)

Yuasa states that the temperature correction for SG is:

• specific gravity changes by +.001 for every -3 degrees Fahrenheit.

J.R. Buchanan did a nice set of charts on battery SG and temperature based on a 100% charge = 1.265 SG.

By the way, do you have a Battery Monitor?

-Bill

If you look at the (simplified) equation for voltage vs specific gravity--The difference in state of charge is a simple difference in voltage or specific gravity (offset by a constant).

So, in your case the high-low voltage gives you a difference of 0.060 volts or a difference of 0.060 sg units.

From what I have read, a couple battery vendors (flooded cell) recommend equalization if the SG is different from low to high cell by more than 0.015 to 0.030 SG units (sg is a ratio--so it is really unit-less).

To be honest, I have never looked at SG of a sealed battery in quite that way before--But, it would appear that if you can do a slow charge (around 2.5% to 5% maximum?) rate of charge at a "slightly" elevated Absorb voltage (or at least hold absorb voltage for hours)--And see if you can bring the cells up to a stable "full charge" (full charge for a flooded cell is 2.5 to 5% current flow and SG not changing between readings taken 30-60 minutes apart)...

It probably would be best to charge cells "singly" at 2.4 volt each--But not many people have 2.4 volt (relatively) high current chargers floating around (i.e., around 1-5 amp charger per 100 AH cell).

Remember you are over charging the series cells that are already at 100% SOC so you can "leak" current to recharge any weak cells back to 100% too. So you don't want too much current through the "good cells" to cause them to overheat and vent--thereby creating a whole battery bank of bad cells.

Anyway--more of a point of discussion here--Not claiming this is the "answer".

-Bill

Re: AGS settings for Outback FM60

Sure--Finding out how things work out is important for everyone that follows. We like to know that we are giving good advice--Or how to give better in the future.

And--You can make your own 25 amp load pretty easily... Use your inverter plus a heater or standard (if you can find them) high wattage filament light bulbs:

25 amps * 24 volts * 0.85 typical inverter efficiency = ~510 watt AC load

Get an inexpensive electric heater run on load (may be around 500 watts) plus a 100 watt light bulb--And there you go.

Concord says their batteries should supply 80% of rated capacity--less than that is a "failed battery".

Practically speaking--Say you plan on running your system to a maximum of 50% discharge (25% discharge for two day without sun)... If the batteries still have charge at the end of your test to 50% discharge--then the bank is "still good for your use". If the battery bank collapses--It no longer meets your needs.

Note--It is very possible you have a mix of "good" and "bad" batteries--Doing the testing will allow you to find the failed battery(ies)--You can replace them, run a reduced bank, or even try some charge/discharge cycles and see if you can "recover" the failed battery

-Bill

Re: AGS settings for Outback FM60

Testing the whole bank and monitoring the voltage on each battery (with a meter) would probably be "good enough"... The first battery that drops below ~12 or 11.5 volts is your weakest.

You can test each battery--But then you would need to recharge each one separately (you don't want to mix charged/discharged batteries in the same series string).

Depends on your needs (your only place to do work, or do you have a shop/2nd home else where with grid power where you can take time/energy to test each battery)... You could do the single battery testing at your off grid location if you have parallel battery strings (take out one string and test the batteries separately). Just depends on what works best for you.

-Bill

Re: AGS settings for Outback FM60

Yea--You don't want to kill a battery just because of testing for bad batteries.

-Bill "self fulfilling prophecy" B.

Re: AGS settings for Outback FM60

AGM can charge faster because they can accept more current than flooded cell during bulk stage, without over heating (when the battery can accept more current than the charge controller can output--charge controller is current limited).

Once the batteries are over ~80-90% state of charge, both will hit the absorb voltage, and the current will slowly tapper down to near 1-2% final charging current.

Of course, if the AGM has begun to sulfate, and the battery bank voltage begins to rise "too quickly"--Then its ability to accept high current will be compromised (and it storage capacity too).

-Bill