Method for suppressing hydrogen formation in an electrolytic cell
First Claim
1. A method for operating a cell for electrolysis of aqueous alkali metal chloride solutions, said cell comprising:
- an anode;
a barrier membrane which is permeable to oxygen but impermeable to water, spaced from but substantially parallel to said anode;
a catalytic cathode located between said anode and said barrier membrane;
an ion-permeable membrane between said anode and said catalytic cathode closely adjacent to said cathode;
means for removing caustic from the cathode by passing an aqueous liquid between said ion-permeable membrane and said barrier membrane and contacting said aqueous liquid with said catalytic cathode; and
means for passing an oxygen-containing gas through said barrier membrane and into contact with said catalytic cathode;
said method comprising the steps of;
supplying an aqueous alkali metal chloride to said anode;
flushing said catalytic cathode with an aqueous liquid by passing said aqueous liquid between said ion-permeable membrane and said barrier membrane, and passing oxygen containing gas through said barrier layer and into contact with said catalytic cathode.
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Abstract
A method of operating an electrolytic cell in which cathodic hydrogen formation is suppressed by contacting the catalytic cathode with air or other oxygen-containing gas. The cells are of two types: (1) those in which a membrane is present as a distinct body to seperate the anode from the catalytic cathode; and (2) those in which the catalytic cathode and membrane are in combination as a single body; both of which types contain an ion permeable membrane to divide the said cell into an anolyte zone containing aqueous anolyte and a catholyte zone containing aqueous catholyte and a catalyst. The method of this invention provides for passing current through said anolyte and said catholyte while contacting said catalyst with an oxygen-containing gas to eliminate the formation of hydrogen gas. When alkali metal halide solutions are employed, halogen gas is evolved at the anode and alkali metal hydroxide is produced at the cathode.
32 Citations
4 Claims
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1. A method for operating a cell for electrolysis of aqueous alkali metal chloride solutions, said cell comprising:
- an anode;
a barrier membrane which is permeable to oxygen but impermeable to water, spaced from but substantially parallel to said anode;
a catalytic cathode located between said anode and said barrier membrane;
an ion-permeable membrane between said anode and said catalytic cathode closely adjacent to said cathode;
means for removing caustic from the cathode by passing an aqueous liquid between said ion-permeable membrane and said barrier membrane and contacting said aqueous liquid with said catalytic cathode; and
means for passing an oxygen-containing gas through said barrier membrane and into contact with said catalytic cathode;said method comprising the steps of; supplying an aqueous alkali metal chloride to said anode; flushing said catalytic cathode with an aqueous liquid by passing said aqueous liquid between said ion-permeable membrane and said barrier membrane, and passing oxygen containing gas through said barrier layer and into contact with said catalytic cathode. - View Dependent Claims (2, 3, 4)
- an anode;
Specification