Electrode for electrochemical abatement of chemical oxygen demand of industrial wastes

The invention claimed is: 1. Electrode suitable for decreasing the chemical oxygen demand of waste-water comprising: a) a permanent component; and b) a sacrificial component arranged face-to-face and releasably attached to the permanent component and in electrical contact therewith, said permanent component consisting of a substrate of a valve metal equipped with a catalytic coating containing noble metals or oxides thereof, said sacrificial component containing elemental iron, wherein the elemental iron is dissolved during operation of the electrode for decreasing the chemical oxygen demand of waste-water, and wherein the electrode is an alternatingly polarizing electrode as an anode and as a cathode in an electrochemical cell for decreasing chemical oxygen demand of waste-water containing chlorides or added with chlorides. 2. The electrode according to claim 1 wherein said sacrificial component consists of a metal mesh or wire hooked to said permanent component. 3. The electrode according to claim 1 wherein said catalytic coating contains oxides of ruthenium and/or oxides of iridium in admixture with oxides of titanium and/or oxides of tantalum. 4. Electrochemical system for decreasing the chemical oxygen demand of industrial waste-water comprising an electrolytic cell containing: an electrode according to claim 1 operating as the anode, and an electrode of a valve metal or steel operating as the cathode. 5. Electrochemical system for decreasing the chemical oxygen demand of industrial waste-water comprising an electrolytic cell containing a pair of electrodes according to claim 1 , each of them alternatingly polarized as anode and as cathode. 6. The system according to claim 4 comprising a settling and/or filtration unit hydraulically connected to said electrolytic cell. 7. The system according to any one of claim 4 comprising a reverse osmosis unit downstream said electrolytic cell. 8. Method for decreasing the chemical oxygen demand of a waste-water containing oily compounds, glycols or waxes, comprising: carrying out electrolysis of the waste-water with anodic evolution of chlorine in the presence of trivalent iron, thereafter carrying out the following sequential steps: a) optionally adding of salts to the waste-water up to reaching a chloride ion concentration of 1-10 g/l; b) performing primary electrolysis of the waste-water in said electrolytic cell of the electrochemical system according to claim 4 with evolution of chlorine on the surface of said permanent component and partial dissolution of said sacrificial component; and d) performing secondary electrolysis of the waste-water in said electrolytic cell of the electrochemical system after releasing said sacrificial component of said electrode. 9. The method according to claim 8 , wherein the electrochemical system used in step b) comprises a settling and/or filtration unit hydraulically connected to said electrolytic cell, and wherein said method comprises the following step between steps b) and d): c) performing primary purification of the waste-water exiting said primary electrolysis in said settling and/or filtration unit. 10. The method according to claim 9 ; wherein the electrochemical system used in step b) comprises a reverse osmosis unit downstream said electrolytic cell, and wherein said method comprises the following step after step d): e) performing final purification of the waste-water exiting said secondary electrolysis in said reverse osmosis unit. 11. The method according to claim 8 wherein said waste-water is a foundry residue. 12. The method according to claim 8 wherein said waste-water contains one or more components selected from the group consisting of siloxanes, polyethylene waxes, glycols, mineral oils, synthetic oils, silicone antifoams, non-silicone antifoams, surfactants, EDTA and boric amides. 13. The system according to claim 5 comprising a settling and/or filtration unit hydraulically connected to said electrolytic cell. 14. The system according to claim 5 comprising a reverse osmosis unit downstream said electrolytic cell. 15. Method for decreasing the chemical oxygen demand of a waste-water containing oily compounds, glycols or waxes, comprising: carrying out electrolysis of the waste-water with anodic evolution of chlorine in the presence of trivalent iron, thereafter carrying out the following sequential steps: a) optionally adding salts to the waste-water up to reaching a chloride ion concentration of 1-10 g/l; b) performing primary electrolysis of the waste-water in said electrolytic cell of the electrochemical system according to claim 5 with evolution of chlorine on the surface of said permanent component and partial dissolution of said sacrificial component; d) performing secondary electrolysis of the waste-water in said electrolytic cell of the electrochemical system after releasing said sacrificial component of said electrode.