Periodic removal of cathodic deposits by intermittent reversal of the polarity of the cathodes
First Claim
1. An electrolytic cell for electrolyzing impure saline solutions containing hardness impurities comprising a cell body, an inlet opening in said cell body for supplying electrolyte in the form of impure saline solution thereto, an outlet opening in said cell body for discharging spent electrolyte therefrom, at least one anode having a dimensionally stable coating thereon within said cell body, at least two cathodes within said cell body, a direct current power source operatively connected to said electrodes and switching means interposed between said power source and said cathodes whereby each such cathode can be made anodic selectively and sequentially so as to remove hardness deposits therefrom while continuing electrolysis with at least one cathode, said anode always remaining anodic during electrolysis so as not to damage the dimensionally stable coating thereon.
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Accused Products
Abstract
Electrolysis of impure solutions containing hardness impurities such as calcium and magnesium causes deposits to form on the cathodes of such an electrolysis cell which rapidly reduces the efficiency of the cell. The electrolysis cell of the instant invention contains a plurality of cathodes. The efficiency of such a cell is rejuvenated periodically by changing the polarity of less than the total number of cathodes in said cell so as to clean such cathodes while continuing normal operation of the cell by means of the remaining cathodes.
24 Citations
3 Claims
- 1. An electrolytic cell for electrolyzing impure saline solutions containing hardness impurities comprising a cell body, an inlet opening in said cell body for supplying electrolyte in the form of impure saline solution thereto, an outlet opening in said cell body for discharging spent electrolyte therefrom, at least one anode having a dimensionally stable coating thereon within said cell body, at least two cathodes within said cell body, a direct current power source operatively connected to said electrodes and switching means interposed between said power source and said cathodes whereby each such cathode can be made anodic selectively and sequentially so as to remove hardness deposits therefrom while continuing electrolysis with at least one cathode, said anode always remaining anodic during electrolysis so as not to damage the dimensionally stable coating thereon.
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3. A process for electrolyzing impure saline solutions in an electrolytic cell having at least one anode and at least two cathodes comprising intermittently discontinuing the normal electrolysis with respect to at least one cathode by reversing the current flow in said cathode so that it acts as an anode for a time sufficient to remove hardness deposits therefrom while normal electrolysis between the permanent dimensionally stable anode and at least said one other cathode continues, thereafter sequentially reversing the current to the other said cathodes so as to remove hardness impurities therefrom while returning the previously cleaned cathode to cathodic service, and the anode remaining anodic throughout electrolysis.
Specification