The use of AküLIFE is suitable for lead-acid batteries fed with electrolyte.
AküLIFE does not revive batteries that have lost their technical values. However, with AküLIFE, it is possible to recharge a working but weakened battery and make it usable for several months or more. This time depends on the damage to the battery.
AküLIFE is designed to be used periodically, approximately once every 6 months, depending on the usage intensity of the battery.
If the battery has been damaged from being overcharged (often reaching a deep discharge level), using AküLIFE will not work. However, it is possible to reuse the battery in cases where the battery is sulfated without serious damage to the electrodes (breakage of the plates, etc. deformations).
AküLIFE does not harm the battery when used in the correct recommended dose. However, it can accelerate the deformation process of the cell electrodes in batteries whose cells are damaged due to severe sulfate development (sulphation) near the end of its life.
Yes. AküLIFE increases the electrode surface by removing sulphate, thus reducing the load on the electrodes and preventing the battery from overheating.
Yes. The capacity of a battery is determined by its weakest cell.
In this case, we recommend that AküLIFE be divided into two or more separate doses. By pouring the first half of the dose into the cell and keeping the second half, you can perform the maintenance by using the remaining dose instead of distilled water in the next maintenance.
Keep charging and discharging the battery under normal usage conditions. AküLIFE increases the battery capacity with each charge-discharge cycle. After 10-12 cycles, the capacity of the battery is fixed.
If too much foaming is observed, we recommend applying AküLIFE more slowly or in separate doses. Foaming is a condition that accompanies the chemical reaction that occurs when cleaning the electrodes from sulfate.
If cells have boiled or overflowed, clean up the overflow solution with suitable materials and dispose of it (in accordance with the manufacturer's instructions for handling sulfuric acid). Pour AküLIFE slowly to prevent excessive foaming.
The heating of the battery is a condition that accompanies the chemical reaction that occurs when cleaning the electrodes from sulfate, as well as the formation of foam.
The use of AküLIFE dissolves the sulphate crystals over the electrodes and releases them, thereby opening up space on the electrodes and lowering the voltage. Therefore, the battery should be charged in the standard way immediately after the chemical reaction has ended.
It is not appropriate to use AküLIFE when the battery is fully charged or completely discharged. For this reason, it is necessary for a fully discharged battery to be charged for about 30 minutes before applying for the effectiveness of the solvent.
Regarding the charging of batteries at charging stations, the safety rules defined by the manufacturer and the personal protectors that must be used are identical for the AküLIFE application. However, the relevant instructions for use are on the AküLIFE packages.
Discharge your battery a little (min. 20% of its capacity). Apply BatteryLIFE and use low (10% of its capacity) current to recharge the battery. Charging is continued until the increase in density stops. During this process with constant current, the charging voltage should not be allowed to rise more than 2.7 V per cell. Then use the battery daily. During the next 10-12 cycles, the electrolyte density will increase a little more after each charge. If it has not risen to the required value after 20 cycles, permanent loss of density may have occurred. In this case, it is recommended to replenish the electrolyte with the appropriate density adjusted in accordance with the manufacturer's instructions.
The charge-discharge cycle is the number of charge-discharge cycles. The battery has a cycle value defined by the manufacturer and specific to that battery. This cycle value can be equated with the battery life. It is also specified to define the time when the projected life of the battery can be reached after a certain cycle and can be replaced.
Revision applications for lead-acid battery groups using sulfate solvent chemicals emerged as an efficient method accepted worldwide in the early 1980s. Today, with the brands of various countries, this method is frequently preferred in the USA, EU Region and Far East countries.
