Patent ID: 9464358
Filing Date: 2016-10-11
CPC Classification: A01N,A23L,A61K,C25B,Y02A

Claim Text:
1. A serially connected electrolytic cell equipment, each cell comprising: a first pipe shaped chamber comprising a hollow metallic cylindrical anode having a cooling channel in the center; said cooling channel comprising two coils; a coil for recycling of anolyte or anodic phase and a coil for recycling the catholyte or cathodic phase; a second chamber comprising a cylindrical hollow grid structured cathode for providing uniform current density; said cathode surrounding the anode in a coaxial arrangement; a cylindrical housing enclosing the anode and the cathode; said cylindrical housing having a top and a bottom cover; an ion selective membrane disposed between the anode and the cathode; a plurality of inlet ports for introducing a cooling liquid, an anodic solution and a cathodic solution into the said cell; a plurality of outlet ports for electrolytic products to exit said cell; an external magnetic field generating device located at the exterior of the housing to produce a magnetic field with flow lines parallel to the axis of the coaxial arrangement, perpendicular to the planes of the covers and to the direction of the stream of ionic migration produced in the electrolytic process; wherein the external magnetic field generating device further comprises an arrangement of metals of high magnetic permeability to produce a desired magnetic field; said metal of high magnetic permeability is a metal selected from Mu metals or a Supermalloy capable of orientation or alignment of the magnetic field to obtain flow lines completely parallel to the axial axis of the coaxial arrangement and perpendicular to the planes of the covers and direction of stream of ionic migration produced in the electrolytic process; and a reactor from each zone of the plurality of serially connected cells provides stoichiometric reaction of the corresponding electrolyte with gases originating from the anodic and cathodic zones from the cells to obtain a stoichiometric ratio and to generate a final balance of a compound product mix having a high efficiency, stability and high performance.