Battery Maintenance - De Sulfation

NorthGuy wrote: »

First, the resistive heat loss is proportional to square root of the current, which produces much more heat at faster charge. Second, this is much less time for the heat to dissipate.

ChrisOlson wrote: »

As Steve (Higgins) from Surrette pointed out, the industry has pretty much adopted the IUIa charging profile for industrial batteries because it's more efficient than voltage-based charging. More efficient means it gets the job done with less heat and torture to the battery.

ChrisOlson wrote: »

That's pretty much what I have seen whenever I graph the log data from my Classics. Very little temp rise until the bank gets up to within a couple volts of Absorb voltage. If the voltage stays at Absorb -2V for a long time the batteries will get hotter than they do if there's sufficient incoming power to get them to Absorb voltage and get the job done. But I use higher Absorb voltage than most people do. So for most folks Absorb -2V (or -1V on 24V system and -0.5V on 12V system) might not cause much of a rise in battery temp like it does for me.

The way I have stopped this phenomenon is to set the AUX offset lower in the Classics so that it brings the water heating online sooner and keeps the voltage at Absorb -3V to Absorb -4V. This keeps the batteries in the cooler running range until the stats kick the water heaters out. Then on a good day, with the water heating load finally off, it zooms right up to Absorb voltage and gets 'er done.

YMMV, but it definitely keeps my batts 5C cooler doing it that way.
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Chris

NorthGuy wrote: »

During bulk stage, voltage is usually 54-55V. At 100A current, I see about 2 C increase per hour. Once, at 160A current, I saw 8 C in one hour.

As absorption nears, voltage goes to 64V rather quickly.

During absorption at 64V (tapering current from 80-100A to 15-20A) I see increase of 2-3 C during the whole 4 hour absorption.

So, voltage doesn't affect heating as much as current does.

NorthGuy wrote: »

I use Xantrex BTS. I have no idea how accurate it is. I don't think cable heating is a problem because I monitor cooling too and it is always very slow. Heated cable would cool down very quickly after the charging is over.

The Enterprise intercepted the Entity after it had killed the entire crew of a freighter, the Kallisko. They attracted the Entity by emitting graviton pulses at ten per second from the Enterprise, as lower pulse rates had no effect on the creature. The creature approached the Enterprise, replying with a series of graviton pulses that the Enterprise crew interpreted as meaningful, but which it needed time to decode. Marr increased the pulse rate, eventually trying a continuous graviton emission. The Entity stopped emitting pulses of its own as the emissions drove it into resonance. The Enterprise crew tried to stop the emissions, only to find that Marr had isolated the access code for the emission controls. Before the crew could halt the emissions, the resonance shattered the Entity. (TNG: "Silicon Avatar")