A UNIQUE DESIGN FOR A UNIQUE PROCESS
At the core of the process are the patented diaphragmatic cells that have been designed using innovative and unique technology to effectively deliver electrochemically activated solutions (Anolyte and Catholyte)using a 1-4% water solution of NaCl as initial material.
Unlike other electrolytic cells, a diaphragm separates the Anolyte and Catholyte solutions generated at the anode and cathode chambers of the cell. Thus preventing the two streams from mixing and inter-reacting to form a simple sodium hypochlorite solution, as is the case with other electrolytic cells commercially available at this time.
The Envirolyte cells are manufactured with variable Anolyte output capacity ranging from 20L to 1200L per hour of Anolyte out of one cell. The cells' combination allows the main fracture Envirolyte units with output capacity up to 6000LPH.
UNIQUE AND INNOVATIVE
It was established by the National Industrial Fuel Efficiency Service Ltd. (NIFES), Scotland, UK.
Through patent search, the design of the Envirolyte diaphragmatic cells is unique and innovative.
The Envirolyte diaphragmatic cell is a round-shaped electrolyzer constructed of titanium and rare metals. A polymer or ceramic diaphragm separates the electrodes. Even under severe conditions, hardly any cell element can be broken.
SMALL SIZE – HIGH CAPACITY
The portable size of all Envirolyte cells has a production capacity varying from 20l up to 1200l of anolyte per hour. So with only one unit up to 20 – 1200, m3/h of water can be effectively disinfected or up to 1200 l/h of Anolyte directly dispensed.
The production of Catolyte (if needed) by the diaphragmatic cells is a valuable addition to the synthesis of the activated solutions that can be used for washing or whenever it is necessary to increase the pH of the treated water.
Universal diaphragmatic cell for treatment of diluted and concentrated aqueous solutions, the heart of any Envirolyte unit.
DIAPHRAGMATIC CELL PERFORMANCE
In addition to the principal electrochemical reaction that takes place at the electrodes, the high intensity of the electrical field at the electrode surface imparts a degree of electro-meta-stability to the water and its dissolved salts, increasing its ORP in the order of -800mv and + 1200mv respectively in the two streams.
This meta-stable condition has been found to remain for periods up to 72 hours after treatment and even more, retaining an inherently higher chemical reactivity and activity for this period and even longer (when activated solutions are properly stored, they remain sporicidal and biocide for up to 6 months and still biocide for up to 12 months). The increased ORP enhances
the solubility, dispersive and reactive properties of the water and its dissolved salts by a marked degree is a significant biocide potential indicator.
Properties of these solutions depend on the electric characteristics of the power supply and the chemical
composition of the treated solutions. The pH level of the solutions synthesized is controlled in the range pH 2.0-13.0 but is adjustable and can be set up for specific parameters