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TOPIC :
REVIVAL OF A 70 Ahr.12V. BT battery
Initial Voltage. 12.0V
Application of normal charger (Initial Cycle)
Application of Revival process (2nd Cycle)
Rehydrated battery with 50cc of distilled
water
With 20cc of sulfa-solve
Applied charger with Sulfa rid - R16. Result
Tabulated Below.
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INITIAL CYCLE
|
2ND CYCLE
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3RD CYCLE
|
|
Time
|
Current Voltage
|
Current Voltage
|
Current Voltage
|
|
0.0
|
1.1 13.674
|
12.0 14.00
|
11.9 12.45
|
|
5 min
|
1.1 13.680
|
7.3 14.17
|
11.8 12.765
|
|
10 min
|
0.9 13.580
|
5.0 14.305
|
11.8 12.810
|
|
20 min
|
0.7 13.480
|
3.5 14.399
|
11.8 12.911
|
|
30 min
|
0.5 13.00
|
3.3 14.41
|
11.8 13.00
|
|
40 min
50 min
60 min
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STOP
|
3.2 14.41
3.2 14.41
3.2 14.41
|
11.6 13.22
11.5 13.401
11.5 13.618
|
|
70 min
80 min
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BATTERY NOT TAKING CHARGE WELL
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3.2 14.420
3.2 14.420
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11.5 13.834
9.2 14.001
|
|
90 min
100 min
110 min
|
|
3.1 14.429
2.9 14.432
2.8 14.435
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7.4 14.126
6.2 14.180
4.9 14.294
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|
130 min
150 min
170 min
|
|
2.7 14.442
2.5 14.450
1.1 13.604
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3.5 14.391
2.5 14.450
1.5 13.606
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190 min
210 min
230 min
|
|
0.9 13.624
0.9 13.631
0.8 13.636
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1.2 13.626
0.9 13.635
0.9 13.652
|
|
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DISCHARGE = 48Ahr
RECOVERY V = 12.00 V
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DISCHARGE = 55Ahr
RECOVERY V = 12.17 V
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OBSERVATION & CONCLUSIONS
Sulfarid will work electronically to break the
co-valent bonds of lead sulphate crystals back
to soft spongy lead sulfate.
Charging will reverse the soft lead sulfate
back to lead and Sulfarid acid.
Sulfa-solve will ionic ally chellate the heavy
Pb ions and reduces greatly the formation of
lead sulphate.
The combination of Sulfarid charging and
sulfa-solve revives sulfated batteries of a
much faster rate than Sulfarid working alone.
Additional cycles of Sulfarid charging removes
further the amount of lead sulfate that was
deposited on the lead plates. The cleaner lead
plates now take charge much better and earlier
than in the 1st cycle.
Further cycling with Sulfarid will improve
capacity after each cycle. No sulfa-solve is
not needed after first application. Sulfarid
will work on its own but working together with
sulfa-solve desulfates the plates more
effectively.
TOPIC : REHYDRATING A SEALEDLEAD
ACID BATTERY AND CHARGING
WITH SULFARID- R AND WITH SULFASOL ADDED.
TYPE : 12V,70AH, SEALED
LEAD ACID
BRAND : BT
INITIALVOLTAGE : 10.59 V
|
DURATION
(min)
|
0
|
10
|
20
|
30
|
40
|
50
|
60
|
70
|
80
|
90
|
100
|
|
AMPERE
|
0.1
|
0.9
|
1.0
|
0.6
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0.5
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0.5
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0.4
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0.4
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0.4
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0.4
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0.4
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VOLTAGE
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13.67
|
13.61
|
13.64
|
13.69
|
13.65
|
13.65
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13.65
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13.66
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13.66
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13.66
|
13.67
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CHARGING WITH SULFARID + SULFASOL
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DURATION
(min)
|
0
|
10
|
20
|
30
|
40
|
50
|
60
|
70
|
80
|
90
|
|
AMPERE
|
0.5
|
0.6
|
1.0
|
0.7
|
0.8
|
9.9
|
9.4
|
11.4
|
11.5
|
11.0
|
|
VOLTAGE
|
13.62
|
13.65
|
13.65
|
13.64
|
13.64
|
13.46
|
13.51
|
13.48
|
13.46
|
13.52
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DURATION
(min)
|
100
|
110
|
120
|
130
|
140
|
150
|
|
AMPERE
|
10.4
|
10.0
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9.2
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8.4
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7.5
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7.4
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VOLTAGE
|
13.58
|
13.62
|
13.66
|
13.69
|
13.77
|
13.825
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The battery internal resistance was very high
initially and resist charge.
After rehydrating and using Sulfarid +
sulfa-solve combination the resistance broke
down after 40 minutes of charging.
At the 40 minute point, the tough crystal
would have started to break down, allowing the
charging current to penetrate to the lead
plates.
Sulfa-solve would now act to remove suspended
lead ions, allowing the Sulfarid to break up
more crystal, observed by the build-up of
charging current from time 50 to 80 minutes.
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