Patent ID: 7665329
Filing Date: 2010-02-23
Classification: F25J

Abstract:
1. In a process for the cryogenic separation of feed air wherein feed air is compressed, is cooled in a primary heat exchanger, is separated by cryogenic rectification in at least one column to produce oxygen-rich liquid and nitrogen-rich vapor, refrigeration is generated by passing part of the nitrogen-rich vapor through a turbine, oxygen-rich liquid is increased in pressure, and the pressurized oxygen-rich liquid is vaporized within the primary heat exchanger by indirect heat exchange with a portion of the feed air that is further compressed to produce product oxygen, the improvement comprising generating sufficient excess refrigeration beyond that required to carry out the cryogenic rectification such that the aggregate warm end temperature difference of the process exceeds the minimum internal temperature difference of the primary heat exchanger by at least 2K, the oxygen-rich liquid is vaporized within the primary heat exchanger at an expenditure of compression energy that is lower than that required for the vaporizing of the oxygen-rich liquid without the excess refrigeration and a power consumption of the process, as calculated by subtracting power generated by the turbine from a sum of energy consumed in compressing the air and in further compression of the portion of the feed air, is lower than the power consumption of the process without the excess refrigeration.