Gas injection device

1 - 16 . (canceled) 17 . A gas injection device for introducing a process gas into a non-ferrous metal melt and/or slag, in particular a copper melt and/or copper slag, comprising: a hollow-cylindrical lance which includes a refractory material and/or graphite, wherein the lance has an inlet opening for the process gas and a gas injection module connected to the hollow-cylindrical lance and including a refractory material and/or graphite, with at least one outlet opening for the process gas, wherein the outlet opening has at least one through-flow element formed from a ceramic material via which the process gas can be introduced into the melt. 18 . The gas injection device according to claim 17 , wherein the ceramic material is selected from the group comprising silicon carbides, silicon nitrides, silicon aluminum oxide nitrides, boron nitrides, zirconium oxides, titanium oxides, aluminum titanates and/or mixtures thereof. 19 . The gas injection device according to claim 17 , wherein the hollow-cylindrical lance is formed from at least one, preferably several individual hollow-cylindrical lance bodies that can be connected to one another. 20 . The gas injection device according to claim 17 , wherein the gas injection module is formed in a cup-shape and the at least one, preferably several, outlet openings are arranged in a lateral surface of the gas injection module formed in a cup-shape. 21 . The gas injection device according to claim 20 , wherein the through-flow element formed from the ceramic material is formed in the form of a nozzle which is inserted into the at least one outlet opening and is firmly connected to the gas injection module. 22 . The gas injection device according to claim 21 , wherein the nozzle is arranged in the at least one outlet opening such that its longitudinal axis has an angle of 45° to 90° with regard to the longitudinal axis of the lance. 23 . The gas injection device according to claim 21 , wherein the nozzle is formed as a Laval nozzle. 24 . The gas injection device according to claim 17 , wherein the gas injection module is formed in the form of a shower head and has several outlet openings aligned in the direction of the inlet opening. 25 . The gas injection device according to claim 24 , wherein the through-flow element formed from the ceramic material is formed in the form of a perforated plate or a porous plate which is inserted into the respective outlet openings of the shower head and is firmly connected to it. 26 . The gas injection device according to claim 24 , wherein the outlet openings are arranged such that their longitudinal axis has an angle of 0° to 45° with regard to the longitudinal axis of the lance. 27 . The gas injection device according to claim 17 , wherein the gas injection module is formed in the form of an impeller wheel and the at least one outlet opening is arranged centrally in the impeller wheel. 28 . The gas injection device according to claim 27 , wherein the through-flow element formed from the ceramic material is formed in the form of a sleeve that is closed on one side and is inserted into the at least one outlet opening and is firmly connected to the impeller wheel, wherein the sleeve has at least one, preferably several outlet channels arranged perpendicular to its longitudinal axis. 29 . The gas injection device according to claim 27 , wherein the through-flow element formed from the ceramic material is formed in the form of a cylindrical sleeve which is inserted into the at least one outlet opening and is firmly connected to the impeller wheel. 30 . A plant for the extraction of non-ferrous metals, in particular of copper, comprising a gas injection device according any to claim 17 . 31 . A plant for treating, cleaning and/or refining of non-ferrous metal slags, in particular of copper slags, comprising a gas injection device according to claim 17 .