Boost charge question

Marc Kurth said:

Generally, the Bulk phase of the charge cycle is called the "constant current" phase because the charging source is running at maximum current and/or the battery bank is sucking up everything being fed to it - at that voltage. Raising the voltage will simply drive the battery to pull more current, assuming that it is available from the source.

In a classic "low battery" scenario, the starting voltage is lower than set point at the beginning of the charge cycle because the batteries are demanding more current than the system can supply. The charging system modulates the voltage to maintain the current. The charging voltage gradually climbs to reach the desired set point as the battery accepts the charge. The transition from Bulk to Absorb isn't a "switch", it is simply the point where the output voltage reached design output and the current draw of the batteries begins to drop.

Of course if the charging capacity of the system is large compared to the battery bank, or the batteries are only mildly discharged - the Bulk and Absorb phases operate the same way.

So, assuming you have the charging capacity available, raising the Bulk voltage will increase the charging current and reduce the charging time. Then dropping back to the 28.8v will allow the batteries to slowly absorb the final charge. The actual voltage setting for the boost will depend upon how hard you are intending to push the batteries.

Some people use a "finishing charge" at 29.6v when the batteries approach full charge instead of boost at the beginning. I suggest working with your battery manufacturer to determine what is optimum for their product.





 

Estragon said:

So with the "boost" charge, it would go something like:
Bulk- 3 hours at max 30a until voltage gets to eg. 30v.
Boost- 1 hour held at 30v with tapering current
Rest- however long it takes with no current for voltage to drop to 28.8v
Absorb- tapering current to set EndAmps or TimeOut.

IMHO it would be better to get batteries charged then do EQ if needed. They would be only part charged after boost phase and might take a while to drop to Vabsorb and start charging again, and may not finish before dark. I'm not sure what the advantage is of doing the sort-of-EQ before absorb is, or of doing it daily.

Currently the bulk/absorbtion  is set at 28.8v, 30A max. When the bulk stage reaches 28.8v it transitions into absorbtion until 2% of the battery Ah is met then goes into float. Introduction of the boost would raise the voltage , say 30v for example , for the first hour of the absorption. The time taken to rest until the voltage drops would be negligible as the battery cannot hold that high a voltage, so transition to absorbtion would be almost seamless. On most days the time taken to complete bulk/absorb is around 5 hours from sunrise, so float is reached at 11:30am to noon with loads, so array  capacity is not an issue.Below are the pages from the manual associated with the boost setting. 

Estragon said:

At my latitude I get to float at about the same time in summer, but not in fall/winter so that would be an issue for me, but not you. My batteries seem to bubble pretty well at Vabsorb and EQing as needed (roughly every 3mos) seems to be working.

Assuming the boost stage is temp compensated and voltage not too high, I guess it wouldn't hurt to enable boost. Might mean fewer EQs?

Estragon said:

At 40C plus, you would have to put ME in the water bath. At -40C like we occasionally get, we can dress for it.