TH74903A - Anode for the release of oxygen - Google Patents

Abstract

DC60 (21/07/16) An overvoltage discharge electrode is described. Containing a titanium substrate or other valve metal The first protective insert layer has Valve metal oxide, second insert layer with platinum Or other noble metal And the external layer with Oxides of tin, copper and molybdenum The invention electrodes may have been used. As an anode in wastewater treatment, CONCLUSIONS 7/7/2016 Electrodes for overvoltage discharging oxygen are described. Containing a titanium substrate or other valve metal The first protective insert layer has Valve metal oxide, second insert layer with platinum Or other noble metal And the external layer with Oxides of tin, copper and molybdenum The invention electrodes may have been used. As an anode in wastewater treatment -------------------------------------------------- -------------------------------------------------- ----------------------------------- Over-voltage oxygen discharge electrode High will be described at Includes a titanium substrate Or other metal valve inserts layer, one containing oxide Of the valve metal, the second insert layer with platinum Or other noble metals and outer layers with oxides of tin, copper and molybdenum. Invention electrodes may be used as anodes. In wastewater treatment

Claims (5)

Disclaimer (all) which will not appear on the announcement page: EDIT 21/7/2016 1. Anode for overvoltage release of oxygen, including valve metal. Or ceramic substrate, first insert layer based on metal oxide, valve with such substrate, platinum insert layer applied to such first insert layer, outer layer that 2. Anode of claim 1, where the metal substrate of such a valve is made of. Titanium or titanium alloy 3. Anode of claim 2, where such substrate of titanium or its alloys Titanium has a roughness profile that is controlled through treatments that include sulfuric acid etching. It is an option that is treated first by sandblasting. 4. Anode of any of the preceding claims. Where the first insert layer This includes titanium oxide and tantalum oxide. 5. Anode of any of the preceding claims. Where the layer inserts platinum These include platinum 10 to 24 g / sq m. 6. Anode of any of the preceding claims. Where such external layers include tin 5 to 25 g / sq m, antimony 0.4 to 2 g / sq m and copper 0.2 to 1 g / sq m. 7. Anode of claim 6 where tin will be contained in Such external layer is not lower than 90% by weight of the total metal load. 8. Methods for the manufacture of anode for overvoltage discharge of oxygen, including the application of the first insert layer. The valve is based on metal oxides with metal. Valves or ceramic substrates, the use of platinum inserts with the first insertion layer, the use of outer layers containing tin oxides, copper and antimony 9. Method of claim clause 8. Where the substrate is a titanium substrate or Titanium alloy with a controlled roughness profile obtained by sandblasting and milling with Subsequent Sulfuric Acid 1 0. Method of claim of any claim of claim 8 or Clause 9 wherein the first insert layer It has been applied using at least one method chosen between the extruding, brushing and rolling starting from a chloride solution of titanium and tantalum with high decomposition. It is subsequently heated to temperatures between 450 and 600 degrees Celsius. 1 1. Method of claim for any of the claims 8 to 10, where the insertion layer Such platinum is consumed by thermal decomposition of solutions containing hexachloro acid. Platinic at a temperature between 400 and 600 ° C 1 2. Method of claim for any of the claims 8 to 11, where the external layer It is applied in multilayer coatings starting with a solution containing chloride of tin, copper and antimony. It is subsequently decomposed at temperatures between 450 and 600 degrees Celsius. 1 3. Electrochemical processes including anode discharge at an electric potential greater than 2 V (NHE) on the electrode. Clause 1 to Clause 7 1. Process of Clause 13 that includes industrial water treatment 1 5. Clause 14 process where treatment is It includes the removal of molecules. Organic matter from wastewater -------------------------------------------------- -------------------------------------------------- ---------------------------------------- 1. Anode for releasing oxygen with Metal-assembled high overvoltages Valve or ceramic substrate, first insert layer based on metal oxide. Valve used. With such substrates, a second insertion layer based on noble metals is applied to the insert layer that One such anode, an outer layer containing tin oxides, copper and antimony 2. Anode of claim 1 where the metal substrate such a valve will be made of. Titanium or titanium alloy 3. Anode of claim 2, where such substrate of titanium or its alloys Titanium has a roughness scheme that is controlled by a composite practice pathway. Optional sulfuric acid etching preceded by sandblasting. 4. Anode of one of the preceding claims. Where the first insert layer will It consists of titanium oxide and tantalum oxide. 5. Anode of any of the preceding claims. Where the second insert layer will It consists of 10 to 24 g / sq m of platinum. 6. Anode of any of the preceding claims. Where the outer layer is composed of 5 to 25 g / sq m of tin, 0.4 to 2 g / sq m of antimony and 0.2 to 1 g / m 2 of copper. 7. Anode of claim 6, where the tin. 8. Methods for the manufacture of anode for overvoltage discharging of oxygen, comprising its application. 1st insert layer based on metal oxides Valves with metal valves or ceramic substrates, using a second insert layer based on metal has The family and the first insertion layer, and the use of an external layer containing oxides of tin, copper and antimony 9. Method of claim No. 8 where such substrates are titanium or metal substrates. Mixture of titanium with a controlled roughness profile obtained by sandblasting and milling. Subsequent Sulfuric Acid 1 0. Method of claim for any of Clause 8 or Clause 9, wherein the first insert layer will It has been applied by means of at least one chosen method between spraying, brushing and rolling starting from a solution of titanium chloride and tantalum with subsequent thermal decomposition. At a temperature between 450 and 600 degrees Celsius 1 1. Method of claim of any of the Clause 8 to Clause 10, where the second insert layer It is consumed by thermal decomposition of a solution containing hexachlorous acid. Platinic between 400 and 600 degrees Celsius 1 2. Method of claiming any one of Clause 8 to Clause 10, where the external layer It is applied in multilayer coatings starting with a solution containing chlorides of tin, copper and antimony. With subsequent thermal decomposition at temperatures between 450 and 600 ° C 1 3.Electrochemical processes consisting of oxygen discharge at the anode at an electric potential greater than 2 Volts (NHE) on the electrodes of any of the claims 1 to 7 1. 4.Process of Clause 13 that includes industrial water practice 1. 5. Clause 14 process of claim, where the said practice will consist of elimination. Organic molecules from wastewater