Does This Old Dual-Inverter Charging Setup Make Sense?

The following is probably common knowledge for you--But just to make sure the bases are "covered":

As long as you follow good wiring practices and keep the overall length/resistance per battery string "equal":

http://www.smartgauge.co.uk/batt_con.html

Then having several charging sources not "in sync" with each other is not the end of the world. The charging source with the "highest voltage" set-points will "win".

So--With identical chargers (say two solar arrays with two solar chargers) setting them to the same float/absorb voltages would be the normal setup. They will not always be in sync--One will probably transition from absorb to float before the other. And that is not a "bad thing".

In some cases, that will be normal... Say you have a South West and a South East facing array ("virtual tracking" to get "more hours of sun per day--Lead Acid batteries "like more hours on charge") that would be normal.

In other cases, you would set different set-points. If you have mains charging and solar array for backup power for your home. You could set the mains charger voltages lower than the solar chargers and "favor" the solar charging for your battery bank (use solar more, and utility power less).

For systems that are not tracking correctly--You can always tweak one a bit higher voltages if it tends to "charge less" than its mate (internal "voltmeters" have some offset from each other.

I am guessing that B1/B2/B3/B4 are four batteries in series with each other (not 4 different parallel strings)? Assuming that these are the voltages of 4x 12 volt batteries in series for 48 volts... What else can you tell us?

Are these flooded cell lead acid batteries? What are the specific gravity readings per cell?

What is the bank AH capacity and the float charging current and voltage of the bank (since you bank spends most of its time is float)?
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More or less, float charging current should be way less than 1% for a floating lead acid battery bank. As batteries age, then float current starts to rise. When it rises to 2% or over, then the batteries are near the end of life (or your float voltage is "too high").

Note for flooded cell lead acid batteries... You want the plates covered with electrolyte at all times. But do not (for example) fill the cells to the "top" before charging/EQ. If you fill to the top and then start hard charging/EQ, the batteries will get hot (electrolyte expands) and gas bubbles will form and push electrolyte fluid out the top of the batteries (loss of electrolyte, and a big mess). Top off the cells at the end of the charging cycles.

When charging, the 12 volt batteries should be (ideal) within 0.180 volts of each other with float voltage around 13.6 to 13.8 volts (or whatever the Mfg. says) or 54.4 to 55.2 volts overall.

When measuring the per battery voltage during charging/loads/floating, if you have a >0.180 volts between "high and low batteries", then your bank needs Equalize charging (or when SG range is >0.030 SG units between "high and low cells").
EQ is done for several reasons--But only "when needed" as it is "hard" on batteries (erosion of plate material from gassing, raising temperature of batteries, etc.).

One reason is if some cells/batteries are charged more than others (unequal cell SG/voltages). Using EQ or "controlled" over voltage charging (depends on battery brands/models) of 60-62+ volts to get 2.5% to 5% rate of charge (i.e., 100 AH bank or 2.5 to 5.0 Amps EQ charging current) to bring up the "low cells" during charging--This can take hours to do. On a fully charged bank, EQ charge and measure the SG of each cell and when all cells stop rising, that is the "new" full charge SG level for each cell (log the temperature adjusted SG for each cell/battery).

And there is EQ charging that is usually recommended for "tall cell batteries". Once a month EQ for an hour to get the batteries to "fizz" (light bubbling, not a "rolling boil"). This is to mix the electrolyte in the cells (electrolyte can stratify with heavy SG layer forming at the bottom of the cell, and light SG at at the tome). The bubbling helps mix the electrolyte.

If you have AGM (or GEL) cells--Then elevated EQ is not a good thing (you don't want the batteries to vent H2 and O2 gasses and acid mist). Instead for AGM cells, one policy to to EQ the batteries for ~8 hours once every 6 months--In this case, EQ is just the normal "absorb" voltage set-point held for 8 hours. You don't want the batteries to get hot/gas/etc.

You can also double check the batteries under load. Run your normal loads from the battery bank and monitor the per battery voltages (discharging to 75% State of Charge as an example) and make sure the batteries support the your loads and the bank overall meets your needs.

If you have one battery that has much higher or lower voltage than the other two--Then it is possible that EQ may "fix" the problem, or you may have a cell/battery going bad.

-Bill