Process and apparatus for producing gaseous oxygen by cryogenic distillation of air

The invention claimed is: 1. A process for producing gaseous oxygen by cryogenic distillation of air in an air separation unit comprising a distillation column system comprised of a medium-pressure column and a low pressure column, the process comprising the steps of: i) compressing all or part of a feed air flow to a pressure P 1 to form a first compressed feed air using a first compressor, wherein P 1 is at least 5 bar greater than the pressure of the medium-pressure column, wherein the suction temperature T 0 of the first compressor is between 0° C. and 50° C.; ii) cooling the first compressed feed air in order to generate an air stream at the pressure P 1 and a temperature T 1 between 5° C. and 45° C.; iii) splitting the air stream into a first portion and a second portion; iv) compressing the second portion of the air stream in a second compressor to a pressure P 2 and then cooling the pressurized portion of the air stream to a temperature T 2 to form a cooled second portion, wherein P 2 is greater than P 1 , wherein T 2 and T 1 differ by less than 10° C.; v) cooling the cooled second portion to a temperature below or equal to −100° C., liquefying said cooled second portion, then expanding the liquefied cooled second portion before introduction to the distillation column system; vi) cooling the first portion of the air stream to a cryogenic temperature below −100° C., then compressing a first fraction of the first portion starting from this cryogenic temperature in a third compressor to a pressure P 3 which is either at or within 5 bar of P 2 ; vii) cooling the compressed first fraction to a temperature below −100° C., liquefying said compressed first fraction, then expanding the liquefied compressed first fraction before introduction to the distillation column system; viii) expanding a flow of gaseous air stream in an expansion turbine and then sending the flow of gaseous air stream to at least one distillation column of the unit, wherein the flow of gaseous air stream is at a temperature below −100° C. when sent to the expansion turbine, wherein the flow of gaseous air stream comprises at least 50% of the air stream; ix) separating air streams in the distillation column system under conditions effective for the rectification of air, wherein the air streams are comprised of air streams derived from the feed air flow; and x) withdrawing liquid oxygen from distillation column system, pressurized by a pump to a required pressure which is greater than 20 bar abs, vaporized and heated by heat exchange to form a gaseous product, wherein the expansion turbine expands the flow of gaseous air stream starting from the pressure P 1 or P 2 or from a pressure between P 1 and P 2 , wherein the first fraction compressed in the third compressor and the second portion of the air stream are mixed in a heat exchanger of the air separation unit so as to form only a single flow of air within the heat exchanger at the pressure P 2 . 2. The process as claimed in claim 1 , wherein a third compressor is coupled to another expansion turbine. 3. The process as claimed in claim 1 , wherein a nitrogen-enriched gas from the medium-pressure column is expanded in a nitrogen turbine. 4. The process as claimed in claim 1 , wherein the third compressor is coupled to a nitrogen turbine and a system for supplying or extracting additional or surplus power is incorporated between the nitrogen turbine and the third compressor, either directly on a common shaft of the nitrogen turbine/third compressor, or by means of a gearbox. 5. The process as claimed in claim 1 , wherein the pressure P 3 is at most 2 bar higher or lower than P 2 . 6. The process as claimed in claim 1 , wherein the flow of gaseous air stream is at a pressure less than P 2 when expanded in the expansion turbine. 7. The process as claimed in claim 6 , wherein the flow of gaseous air stream expanded in the expansion turbine is not compressed in a compressor having an inlet temperature below the ambient temperature. 8. The process as claimed in claim 1 , wherein the flow of gaseous air stream is at pressure P 2 when expanded in the expansion turbine. 9. The process as claimed in claim 8 , wherein the flow of gaseous air stream expanded in the expansion turbine is not compressed in a compressor having an inlet temperature below the ambient temperature. 10. The process as claimed in claim 1 , wherein P 2 is between 50 and 60 bar and/or P 3 is between 50 and 60 bar.