Use of nitrogen compounds in the pickling of stainless steel

The invention claimed is: 1. An acidic aqueous solution suitable for the pickling of stainless steel comprising a) 20 to 350 g/l calculated on a sulfate basis of at least one water soluble inorganic compound that acts as a source of sulfate anions, b) 9 to 150 g/l calculated on a fluorine basis of at least one fluorine-containing water soluble inorganic compound that acts as a source of fluoride, c) in total at least 0.01 g/l calculated on a nitrogen basis of one or more accelerators based on water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓, d) not more than 100 g/l of iron ions, wherein free sulfuric acid is present in an amount of at least 20 g/l, but not more than 200 g/l calculated on a sulfate basis; wherein free hydrofluoric acid is present in an amount of not more than 60 g/l calculated on a fluorine basis; and wherein the solution has a redox potential of at least +230 mV. 2. The acidic aqueous solution according to claim 1 , wherein the amount of accelerators based on water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓ is not more than 20 g/l, but at least 0.1 g/l, calculated on a nitrogen basis. 3. The acidic aqueous solution according to claim 1 , wherein the accelerators based on water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓ are selected from hydrazine, hydrazoic acid, hydroxylamine, water soluble salts of hydrazine, water soluble salts of hydrazoic acid, water soluble salts of hydroxylamine and mixtures thereof. 4. The acidic aqueous solution according to claim 1 wherein iron ions are present in an amount of at least 15 g/l. 5. The acidic aqueous solution according to claim 1 wherein the iron ions are present and comprise at least 10 g/l, but not more than 60 g/l of ferric ions. 6. The acidic aqueous solution according to claim 4 wherein the solution has a molar ratio of ferric ions to ferrous ions of at least 0.2, and not more than 10. 7. The acidic aqueous solution according to claim 1 wherein the solution has a redox potential not more than +800 mV. 8. A process for the pickling of stainless steel wherein a stainless steel surface is brought into contact with a pickling solution comprising: a) 0.2 to 2.1 mol/l of at least one strong free acid with a pK-value of the first deprotonation step below 2.5; b) 0.4 to 79 mol/l of total fluoride; c) 0.25 to 2 mol/l of iron ions; d) at least 0.01 g/l calculated on a nitrogen basis of one or more accelerators based on water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓; wherein the redox potential of the pickling bath is at least +230 mV. 9. The process according to claim 8 wherein the at least one strong free acid comprises at least 50 wt.-% of free sulfuric acid. 10. The process according to claim 8 , a quantity of one or more oxidizing agents with a standard reduction potential of at least +800 mV (SHE) is continuously or discontinuously added to the pickling solution such that the pickling solution has molar ratio of ferric ions to ferrous ions maintained at a value of at least 0.2, but not more than 10. 11. The process according to claim 8 wherein at least one accelerator selected from water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓, is continuously or discontinuously added to the pickling solution such that a total amount of water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓ is maintained at an amount of at least 0.01 g/l calculated on a nitrogen basis. 12. The process according to claim 10 , wherein the oxidizing agents are contained in one or more aqueous solutions. 13. The process according to claim 12 , wherein the accelerators are contained in one or more aqueous solutions different from the solutions containing the oxidizing agents. 14. The process according to claim 8 wherein the one or more accelerators based on water soluble inorganic compounds comprising at least one nitrogen atom in an oxidation state in the range of −2 to −⅓ are selected from hydrazine, hydrazoic acid, hydroxylamine, water soluble salts of hydrazine, water soluble salts of hydrazoic acid, water soluble salts of hydroxylamine and mixtures thereof. 15. The process according to claim 8 , wherein the stainless steel surface is a surface of a metal strip. 16. An article of manufacture comprising a stainless steel metal strip treated according to the process to claim 8 .