Instead of wasting and throwing away "a whole manufactured unit" (battery), simply because it is sulphated, our exclusive process not only makes it possible to "clean" the interior of this unit, but also "to optimize" the components. This process reduces the wastage considerably
Lead batteries can be found everywhere around us in every vehicle and in many industrial factories. As they store energy, they regularly need to be recharged.
Over time, a stable crystalline form of lead (lead sulfate) appears, and coats the battery's plates. Crystalline lead sulfate does not conduct electricity and cannot be converted back into lead and lead oxide under normal charging conditions. This process is known as sulfation.
This natural process occurs in all lead-acid batteries during normal operation.
Sulfation clogs grids, impedes recharging and ultimately can expand and crack the plates as it accumulates, destroying the battery. Crystalline lead sulfate is resistant to normal charging currents, and does not re-dissolve completely (That’s when you believe your battery is dead and you replace it with a new one)
2 & 3. DIAGNOSIS
In order to determine if your battery is suitable for regeneration, we freely provide a set a of test to check the acidity level and the electrical status
At Techload’s Battery Clinic, your batteries are studied, monitored and treated to ensure the maximization of the batteries' lifespan. Aside treatment of these batteries, our qualified staff provides consultancy services to those who need solutions such as prevention of self sulfation, maintenance of lead acid batteries, charging advice and real-time monitoring of batteries and their health.
This provision of services applies to batteries whose quality and state are suitable. (Are excluded, broken, shorted-circuit, exaggeratedly discharged or reloaded batteries)
Regenerating batteries is not a miracle, but science result of an effective and complex process resulting from several years of research.
Regeneration does not require phenomenal power: Injection of a sequential wave at variable and flexible frequencies, combined with a (carrying) current will de-structure lead sulphate crystals
Basically the process relies on the resonance of materials, the polarization of atoms and the electro-chemical properties of the lead sulphate complex.
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