Patent ID: 8695377

Claim:
A process for the separation of air by cryogenic distillation in a distillation system including at least a high pressure column and a low pressure column having a first mode of operation and a second mode of operation that are different from each other, the process comprising the steps of: purifying an inlet air stream, compressing the purified air stream in a main compressor, cooling the compressed air stream in a heat exchange line, sending the cooled, compressed and purified air stream from the heat exchange line to the high pressure column, sending an oxygen enriched liquid stream from the high pressure column to the low pressure column, sending a nitrogen enriched liquid stream from the high pressure column to the low pressure column, removing a nitrogen rich gas from the low pressure column and warming the removed nitrogen rich gas a heat exchange line, removing a component of air from the distillation system in liquid form, and pressurizing and warming the removed component of air in the heat exchange line, wherein: i) in the first mode of operation, at least 90% of the air compressed in the main compressor is further compressed to a first pressure at least 30 bars higher than the pressure of the high pressure column, the air at the first pressure is sent to the heat exchange line, cooled and divided in two parts, the first part being liquefied and sent to the distillation system and the second part being expanded in at least one of two turboexpanders connected in parallel—before being sent to the high pressure column; in the second mode of operation, at most 70% of the air compressed in the main compressor is further compressed to a first pressure at least 30 bars higher than the pressure of the high pressure column, the air at the first pressure is sent to the heat exchange line, cooled and divided in two parts, the first part being liquefied and sent to the distillation system and the second part being expanded in at least one of two turboexpanders connected in parallel before being sent to the high pressure column and at least 30% of the air compressed in the main compressor is sent at the outlet pressure of the main compressor to the heat exchange line, cooled and sent to the high pressure column, wherein connected in parallel is characterized as the two turboexpanders being configured to receive the air at substantially the same temperature and pressure whenever air is introduced to both turboexpanders, wherein a cryogenic liquid is produced as a final product only during the first mode of operation.