TH49065A3 - Argon production from cryogenic air separation process - Google Patents

Abstract

DC60 (23/06/42) This invention involves a cryogenic air separation process to separate at least the product. Eliminated raw argon Nitrogen is exhausted where the process is performed in a preliminary distillation system, which consists of at least The first distillation column in which the feed mixtures are separated. Which contains nitrogen, oxygen and argon into the top of the nitrogen-rich tower And an oxygen-rich bottom and a lateral armed column, where the argon-containing feeder currents are fed from Preliminary distillation column To produce the top of the tower from Argon is largely depleted of oxygen. This invention is characterized in that (a) argon-rich lateral currents contain nitrogen. Will be pulled from The position of the lateral armed column, above the inlet position of the argon-rich feed stream (b), the argon-rich lateral stream with the nitrogen extracted of the step (A) is fed. Nitrogen-deficient columns to remove existing nitrogen where nitrogen-free columns There will be at least the elimination section positioned below the position of the side current feed. Beside argon-rich nitrogen deficiency, and where the elimination portion of the column is not Get nitrogen will be provided there (C) The product of the raw argon was eliminated. Nitrogen is exhausted. Are recovered and removed from the bottom of the nitrogen-free column and (d) at least part of the Flows upward in the nitrogen-free column is eliminated and the displaced part is returned to Optimal position of the side-armed column The invention involves a process for cryogenic air separation for at least the product recovery. Eliminated raw argon Nitrogen is exhausted where the process is performed in a preliminary distillation system, which consists of at least The first distillation column in which the feed mixtures are separated. Which contains nitrogen, oxygen and argon, forming a nitrogen-rich tower And an oxygen-rich bottom and a lateral armed column, where the argon-containing feeder currents are fed from Preliminary distillation column To produce the top of the tower from Argon is largely depleted of oxygen. This invention is characterized in that (a) argon-rich lateral currents contain nitrogen. Will be pulled from The position of the side-armed column, above the inlet position of the argon-rich feed stream (b), the argon-rich lateral stream with the nitrogen extracted of the step (a) is fed. Nitrogen-deficient columns to remove existing nitrogen where nitrogen-free columns There will be at least the elimination section positioned below the position of the side current feed. Beside argon-rich nitrogen deficiency, and where the elimination portion of the column is not Get nitrogen will be provided there (C) The product of the raw argon was eliminated. Nitrogen is exhausted. Are recovered and removed from the bottom of the nitrogen-free column and (d) at least part of the Flows upward in the nitrogen-free column is eliminated and the displaced part is returned to Optimal position of the side-armed column

Claims (1)

1. In cryogenic air separation process to reclaim at least the product Eliminated raw argon All the nitrogen Where this process is performed in a preliminary distillation system. Which consists of at least Column of first distillation Which separates the feed mixtures containing nitrogen, oxygen and argon It is a nitrogen-rich tower top and an oxygen-rich bottom and a column with lateral arms. Which Rectifa The feed stream with argon elements fed from the preliminary distillation column to produce the tower peak.