GB2442051A - New Electrolyte for Batteries - Google Patents

Abstract

This technology relates to a new electrolyte formulation comprising sulphuric acid and colloidal and / or ionic silver for lead acid batteries. The basic chemistry of the lead acid battery is unaffected other than the scavenging of sulphate that affects the life time and float current performance of the battery. Reduced charging times and increased active life of both the electrodes and the electrolyte is obtained by the use of the invention.

Description

Description

A new electrolytic solution for new and existing lead acid batteries. E.g. 48,12, 6, 9 volt or other voltages for telecom cellular and utility applications, this technology is environmentally friendly and enhances performance of the electrolyte which will replace the standard Sulphuric acid electrolyte.

By introducing silver (Colloidal silver and Ionic Silver) to the standard acid (Sulphuric Acid), the physical and electrical properties of the Electrolyte are changed, without changing the interaction between the Lead electrodes and the electrolyte. (See Diag. 1 and 2) A standard mixing ratio of between 95% -70% Sulphuric acid (specific gravity 1.25) and between 5% and 30% Colloidal /lonic silver (1 ppm -3oppm silver in double distilled water). Dependant on the level of performance enhancement required, the new electrolyte will provide changes in physical and electrical properties within a Battery which will increase the efficiency and performance.

(See ref diag. 3, Standard H2S04 electrolyte and diag 4, New electrolyte of H2S04 + colloidal and ionic silver). This is achieved by the presence of electrically charged particles of Silver (Colloidal and Ionic), increasing the conductivity of mobile ionic charges within the electrolytic solution and reducing the build up of suiphates on the surface of the electrodes, by forming small quantities of silver sulphate that precipitate as an insoluble sediment.

The combined enhancement of efficiency and performance also increases the active life of a battery, thereby reducing environmentally damaging disposition of unwanted Lead electrodes and plastic containers.

The reduction in re-charging times also reduces the use of industrial or domestic electrical power.

Claims (5)

1. Claims 1. Between 40% -70% improvement in sustainable output. (figures

   obtained using a constant drain of 12 watts)
2. 2. A reduction in charge time of between 30 -40% using a standard battery charger.
3. 3. Due to the reduction in sulphur deposits on the electrodes, the active life will be considerably improved (minimum of 20%)
4. 4. Following complete discharge there is a reduced re-charging period of between 10% -30% dependant on the mixing ratio of Sulphuric acid and Colloidal solution.
5. 5. Following complete discharge and disconnection of drain, there is an increased self re-charge voltage of up to 8.7 volts within 24 hours, dependant on the mixing ratio of Sulphuric acid and Silver Colloidal/Ionic solution.