Removal of oxygen from hydrocarbon-containing gas mixtures

The invention claimed is: 1. A process for removing oxygen from hydrocarbon-containing gas mixtures, the hydrocarbons comprising one or more ethylenically unsaturated hydrocarbons, the process comprising the steps of: introducing a hydrocarbon-containing gas mixture containing 60 to 93.5% by volume of one or more ethylenicallyunsaturated hydrocarbons, from 2 to 10% by volume of oxygen and optionally one or more gases from the group consisting of nitrogen, noble gases, carbon dioxide, carbon monoxide and water into an isothermally operated reactor, and at least partly converting the oxygen present in the hydrocarbon-containing gas mixture into carbon dioxide and water in the presence of one of more catalysts to produce a gas mixture exiting the reactor, wherein the gas mixture exiting the reactor contains ≤1.5% by volume of oxygen, from 55 to 99.99999% by volume of one or more hydrocarbons and optionally one or more further gases selected from the group consisting of nitrogen, noble gases, hydrogen, carbon dioxide, carbon monoxide and water, wherein the hydrocarbon-containing gas mixture does not contain any hydrogen and no hydrogen is added to the hydrocarbon-containing gas mixture and the one or more catalysts are selected from the group consisting of palladium/gold, platinum/gold and salts thereof, where the percents by volume are based on the total volume of the hydrocarbon-containing gas mixture introduced into the reactor and add up to a total of 100% by volume. 2. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein no oxygen is introduced as further gas into the reactor. 3. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the gas mixture exiting from the reactor has a temperature that differs from the temperature of the hydrocarbon-containing gas mixture entering the reactor by ≤50° C. 4. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the hydrocarbon-containing gas mixture has a temperature of from ≤300° C. to ≥100° C. on entering the reactor. 5. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the gas mixture exiting the reactor has a temperature of from ≤350° C. to ≥100° C. 6. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the gas mixture exiting the reactor contains ≤1% by volume of oxygen, from 60 to 99.99999% by volume of one or more hydrocarbons and optionally one or more further gases selected from the group consisting of nitrogen, noble gases, hydrogen, carbon dioxide, carbon monoxide and water, where the percents by volume are based on the total volume of the respective gas mixture and add up to a total of 100% by volume. 7. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the degree of conversion of oxygen in the reactor is from 50 to 100 mol %. 8. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the gas mixture exiting the reactor contains from 85 to 99% by weight of the hydrocarbons which were present in the hydrocarbon-containing gas mixture to be purified which was introduced into the reactor. 9. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the gas mixture exiting the reactor is conveyed in its entirety or in part through a countercurrent heat exchanger in which the hydrocarbon-containing gas mixture is heated and which, after leaving the countercurrent heat exchanger, is fed to the reactor. 10. The process for removing oxygen from hydrocarbon-containing gas mixtures as claimed in claim 1 , wherein the gas mixture exiting the reactor is partly fed to further purification or utilization and the remaining part is added to one or more starting gas mixtures, wherein starting gas mixtures contain ≤15% by volume of oxygen, from 40 to 95% by volume of one or more hydrocarbons and optionally one or more further gases selected from the group consisting of nitrogen, noble gases, carbon dioxide, carbon monoxide and water, where the percents by volume are based on the total volume of the respective gas mixture and add up to a total of 100% by volume.