Is it as simple as Ah in Ah out for figuring SOC?

Re: Is it as simple as Ah in Ah out for figuring SOC?

My old Trace C40 charges at high voltage cutoff for two hours before dropping down to float voltage.

One minute seems kinda short.

Re: Is it as simple as Ah in Ah out for figuring SOC?

Bill

However, when gassing the batteries (near end of charge/during equalization), AH efficiency will drop tremendously (gassing does not charge the battery--Energy wise).

It seems that voltage plays an important part in this also. I EQ last night and brought my batteries sg to full. The battery was 64 degrees and the sg on the low cell was 1.292 and the high was over 1.300. The next morning after running loads the trimetric said 80% soc and about 177 ah was taken from the battery. The battery temp was 50 degrees and the sg was a little over 1.240. By noon with a charge rate of about 65 to 70 amps for a couple hours the voltage was 60 volts and the sg was almost to 1.250 The next three hours the batteries stayed above 61 volts but not my absorb setting of 61.6 volts. I only got one full hour of absorb. after the batteries were above 60 volts I seemed to gain about .010 of sg per hour.


I have the trimetric set at a 90% eficiancy rate and just barily replaced the amps that were drawn out at that rate. The end result was a ten degree raise in bat temp to 60 degrees with an end sg of 1.272. With out the higher voltage used for eq I don't think the sg would go up for a long long time. As it was the bat was only excepting 6 amps and when eq it gets to only accepting 10 amps. When I eq last night the bat. just barily equalled out the previous used amps but got the sg up. today it equaled the amps out but at a lower voltage and the sg was only 1.272.

They bats were at the end of three days with out a more then 90% charge each day and today was from a shallow discharge.

Keep in mind that I am not charging with temp compensation. They say you can bring a sulfated battery back with a very low amp and very long charge. My belief is that sg doesn't seem to rise without the correct voltage. I am sure there are varibles to this as I have gotten to some pretty high voltages with some very long extended low rate charging. I didn't have the trimetric when that happened so have no way to compare what was taken to what was put back to get those high voltages.

Some day I might figure this out.
gww

Re: Is it as simple as Ah in Ah out for figuring SOC?

Bill
was your post ment to be on this thread?
Cheers
gww

Re: Is it as simple as Ah in Ah out for figuring SOC?

Bill
Ok, I had just read that some where, thanks for your thoughts. It was the 100% discharge in your post that threw me. I wish I had left that part out as I was most curious about the voltage relationship to getting sg up regardless of amps replaced and wondered if my experience was normal. I almost posted a differrent thread on that question but it seemed to fit here.

Not what I an interested in but just a side note. The gb battery web site says;

Never allow a battery to go completely dead (unusable). It will take over 72 hours of continuous charging to bring back to full charge, and may require shop service to restore full charge.

Thanks
gww

Re: Is it as simple as Ah in Ah out for figuring SOC?

BB. wrote: »

It sort of is... A lead acid battery is near 100% efficient when using Amp*Hours as your measurement tool.

It is Watt*Hours in/out that are not. For example (pick your discharging/charging average voltages):

100 AH * 12 volts discharging = 1,200 Watt*Hours
100 AH * 14.5 volts charging = 1,450 Watt*Hours

1,200 WH/1,450 WH = 0.83 Energy Efficiency

However, when gassing the batteries (near end of charge/during equalization), AH efficiency will drop tremendously (gassing does not charge the battery--Energy wise).

-Bill

Hi Bill,

Using the data logged every second by the Victron BMS it shows that from 100% SOC on the afternoon of the 3rd Jan'15 through the discharge and recharge cycle back to 100% SOC on the afternoon of the 4th Jan'15 some 3,303 WH was drawn from the battery and then 3,517WH was put back into the batteries - does this make these batteries around 93.9% efficient?
Regards, SandyP.