1. Inspection/check
The battery installation and charging
unit must be inspected for mechanical soundness. All bolted connections within
the circuit must be properly tightened for optimum contact as set out in the
operating instructions.
The charging unit must be checked for
operational readiness. Ensure that the polarity is correct.
Before filling the cells ensure that
the conditions as set out in DIN VDE 0510 Part 2 regarding installation and
ventilation are observed.
Should a higher charging current be
used than permitted for the ventilation layout by start up charging, the
ventilation in the battery room must be increased according to the loading
current applied for the start-up period and for one hour afterwards, e.g. by
additional portable ventilators. The same applies to occasional special battery
charging processes.
2. Filling cells
Acid with the density according to
Table 1 must comply with the purity specifications according DIN 43 530 Part 2.
If concentrated sulphuric acid is
supplied, the mixing instructions must be observed.
The acid temperature should be in the
range of 15°C to 30°C. Before filling the temperature must be measured and
noted in the commissioning report.
Aher removing the transport plugs or
opening the vent plugs the cells must be filled to the lower electrolyte level
mark using acid-resistant filling devices.
It is not
permitted to use transport plugs when operating the battery. They must be
replaced by vent plugs delivered with the batteries.
Higher
temperatures reduce the electrolyte density and lower temperatures increase the
electrolyte density. The associated correction factor is 0.0007 kg/l per K.
Example:
Electrolyte density 1.23 kg/l at 35°C corresponds to a density of 1.24 kg/l at
20°C.
3. Reaction time
Aher
filling the cells a reaction time of 2 hours must be observed. Subsequently,
depending on the total number of cells, the temperature and electrolyte density
of at least 4 to 8 cells (pilot cells) must be measured and noted in the
commissioning
report.
If the
temperature rise is less than 5 K and the electrolyte density has not fallen
more than 0.02 kg/l below the acid density, a commissioning charge as under 4.1
or 4.2 is adequate.
Should one
of the deviations be higher than an extended commissioning charge as under 4.3
is necessary.
4. Commissioning
With
non-transparent cell containers the vent plugs remain open in order to observe
whether gassing is taking place evenly in all the cells towards the end of the
charge.
It is important that the first charge is
carried out to completion. This is only possible with a charging voltage above
2.35 V/cell. Interruptions should be avoided if possible. Commissioning should
be recorded in the commissioning report overleaf.
During
start-up the cell voltage of the pilot cells must be measured and on start-up
completion the cell voltage, electrolyte density and temperature of all cells
must be measured and noted with the time and date in the commissioning report.
The
electrolyte temperature must not exceed 55°C, if necessary the charge operation
must be interrupted.
4.1 Commissioning charge with constant voltage (IU chararteristic)
A charge
voltage of 2.35-2.4 V/cell is required. The charge current on commencing the
charge shouid be a minimum of 5 A per 100 Ah C10.
The
electrolyte density only rises slowly during the charge. The charge time can
therefore take several days before reaching a minimum electrolyte density of
nominal electrolyte density -0.01 kg/l.
Subsequently
switch to the float charge voltage as set out in the operoting instructions.
The electrolyte density rises to the nominal density during operation.
4.2 Commissioning charge with constant (I chararteristic) or decreasing
current (W characteristic)
The maximum
permitted currents can be obtained from Table shows maximum permitted charging currents in A per 100 Ah C10 for I and W charging
Charging
must continue until
- All cells have reached a minimum of 2.6 V
- The electrolyte density in all cells has risen
to
- The nominal value of ± 0.01 kg/l and these
cease to rise over a further period of 2 hours.
Subsequently
switch to the floot charging voltage as set out in the operating instructions.
4.3 Extended commissioning charge
Extended
storage or climatic influences (humidity, temperature fluctuations) reduce the
charge state of the cells. This makes an extended commissioning charge along
the following procedure necessary:
- Charge at 15 A per 100 Ah C10 until 2.4 V/cell
is achieved (ca. 3 - 5 hours),
- Charge for 14 hours with 5 A per 100 Ah C10 (voltage
exceeds 2.4 V/cell),
- Interrupt for one hour,
- Charge for 4 hours with 5 A per 100 Ah C10.
Repeat
items 3 and 4 until
— all cells
have reached a minimum 2.6 V
— the
electrolyte density in all cells has risen to
the nominol
value of ± 0.01 kg/l and these
cease to
rise for a further 2 hours.
Subsequently
switch to the float charge voltage
- as set out in the operating instructions.
4.4 Electrolyte level adjustment
On
completion of commissioning top up with acid to bring the electrolyte level to
the upper electrolyte level mark.
4.5 Electrolyte density adjustment
If the
electrolyte density at the end of commissioning is too high, reploce part of
the electrolyte with purified water as specified in DIN 43 530 Part 4. The
comparative electrolyte density in individual cells should not deviate more
than 0.01 kg/l. With greater deviations adjust the electrolyte density and then
carry out an equalizing charge as set out in the operating instructions.
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