Method for the electrolytic production of alkali
First Claim
1. In the process for electrolyzing an aqueous solution of an alkali metal chloride to form an alkali metal hydroxide at the cathode and chlorine at the anode by the oxidation of chloride ions in the anolyte, the improvement which comprises introducing hydrogen gas at the anode, preferentially anodically oxidizing said hydrogen gas in the presence of a catalyst to hydrogen ions by passing said hydrogen gas through a porous anode containing the catalyst into the anolyte and reacting the thus-formed hydrogen ions with the chloride ions in the anolyte, the porous anode through which the hydrogen gas is passed being formed in two layers, said first layer being a porous sintered coarse layer of platinized titanium and said second layer being a porous sintered finer layer of titanium, the hydrogen gas being passed initially through said first layer and then through said second layer into the anolyte.
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Abstract
A method whereby an alkali, such as an alkali metal hydroxide, is produced at the cathode by the electrolysis of aqueous alkali metal halide solutions and the process is operated to produce either chlorine or HCl at the anode.
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2 Claims
- 1. In the process for electrolyzing an aqueous solution of an alkali metal chloride to form an alkali metal hydroxide at the cathode and chlorine at the anode by the oxidation of chloride ions in the anolyte, the improvement which comprises introducing hydrogen gas at the anode, preferentially anodically oxidizing said hydrogen gas in the presence of a catalyst to hydrogen ions by passing said hydrogen gas through a porous anode containing the catalyst into the anolyte and reacting the thus-formed hydrogen ions with the chloride ions in the anolyte, the porous anode through which the hydrogen gas is passed being formed in two layers, said first layer being a porous sintered coarse layer of platinized titanium and said second layer being a porous sintered finer layer of titanium, the hydrogen gas being passed initially through said first layer and then through said second layer into the anolyte.
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