Cryogenic rectification system for producing high purity oxygen

Refrigeration – Cryogenic treatment of gas or gas mixture – Separation of gas mixture

Reexamination Certificate

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C062S654000

Reexamination Certificate

active

06460373

ABSTRACT:

TECHNICAL FIELD
This invention relates generally to the cryogenic rectification of feed air and, more particularly, to the cryogenic rectification of feed air to produce high purity oxygen.
BACKGROUND ART
High purity oxygen is used in the manufacture of high value components such as semiconductors where freedom from contamination is critical to the manufacturing process. High purity oxygen is generally produced in large quantities by the cryogenic rectification of feed air using a double column plant. The production of high purity oxygen is energy intensive and any system which can produce high purity oxygen with lower power requirements than heretofore available systems would be highly desirable.
Accordingly it is an object of this invention to provide a system for producing high purity oxygen by the cryogenic rectification of feed air which has lower power requirements than do heretofore available comparable conventional systems.
SUMMARY OF THE INVENTION
The above and other objects, which will become apparent to those skilled in the art upon a reading of this disclosure, are attained by the present invention, one aspect of which is:
A method for producing high purity oxygen comprising:
(A) passing feed air at a feed level into a first column and producing by cryogenic rectification within the first column first nitrogen-rich fluid and first oxygen-enriched fluid;
(B) passing first oxygen-enriched fluid from the first column at a feed level into a second column having a top condenser, and producing by cryogenic rectification within the second column second nitrogen-rich fluid and second oxygen-enriched fluid;
(C) passing oxygen-containing liquid taken from above the feed level of at least one of the first column and the second column into the upper portion of a third column and down the third column countercurrently to upflowing vapor to produce high purity oxygen fluid;
(D) vaporizing a first portion of the high purity oxygen fluid by indirect heat exchange with at least one of feed air and first nitrogen-rich fluid to produce said upflowing vapor; and
(E) recovering a second portion of the high purity oxygen fluid as product high purity oxygen.
Another aspect of the invention is:
Apparatus for producing high purity oxygen comprising:
(A) a first column and means for passing feed air at a feed level into the first column;
(B) a second column having a top condenser and means for passing fluid from the lower portion of the first column at a feed level into the second column;
(C) a third column having a bottom reboiler and means for passing fluid taken from above the feed level of at least one of the first column and the second column into the upper portion of the third column;
(D) means for providing fluid from the lower portion of the third column to the bottom reboiler, and means for providing fluid from the upper portion of the first column to the bottom reboiler; and
(E) means for recovering high purity oxygen from the third column.
A further aspect of the invention is:
Apparatus for producing high purity oxygen comprising:
(A) a first column and means for passing feed air at a feed level into the first column;
(B) a second column and means for passing fluid from the lower portion of the first column at a feed level into the second column;
(C) a third column having a bottom reboiler and means for passing fluid taken from above the feed level of at least one of the first column and the second column into the upper portion of the third column;
(D) means for providing fluid from the lower portion of the third column to the bottom reboiler, and means for providing feed air to the bottom reboiler; and
(E) means for recovering high purity oxygen from the third column.
As used herein the term “feed air” means a mixture comprising primarily oxygen and nitrogen, such as ambient air.
As used herein the term “column” means a distillation or fractionation column or zone, i.e. a contacting column or zone, wherein liquid and vapor phases are countercurrently contacted to effect separation of a fluid mixture, as for example, by contacting of the vapor and liquid phases on a series of vertically spaced trays or plates mounted within the column and/or on packing elements such as structured or random packing. For a further discussion of distillation columns, see the Chemical Engineer's Handbook, fifth edition, edited by R. H. Perry and C. H. Chilton, McGraw-Hill Book Company, New York, Section 13
, The Continuous Distillation Process.
Vapor and liquid contacting separation processes depend on the difference in vapor pressures for the components. The high vapor pressure (or more volatile or low boiling) component will tend to concentrate in the vapor phase whereas the low vapor pressure (or less volatile or high boiling) component will tend to concentrate in the liquid phase. Partial condensation is the separation process whereby cooling of a vapor mixture can be used to concentrate the volatile component(s) in the vapor phase and thereby the less volatile component(s) in the liquid phase. Rectification, or continuous distillation, is the separation process that combines successive partial vaporizations and condensations as obtained by a countercurrent treatment of the vapor and liquid phases. The countercurrent contacting of the vapor and liquid phases is generally adiabatic and can include integral (stagewise) or differential (continuous) contact between the phases. Separation process arrangements that utilize the principles of rectification to separate mixtures are often interchangeably termed rectification columns, distillation columns, or fractionation columns. Cryogenic rectification is a rectification process carried out at least in part at temperatures at or below 150 degrees Kelvin (K).
As used herein the term “indirect heat exchange” means the bringing of two fluids into heat exchange relation without any physical contact or intermixing of the fluids with each other.
As used herein the term “top condenser” means a heat exchange device that generates column downflow liquid from column vapor.
As used herein the term “bottom reboiler” means a heat exchange device that generates column upflow vapor from column liquid.
As used herein the terms “turboexpansion” and “turboexpander” mean respectively method and apparatus for the flow of high pressure gas through a turbine to reduce the pressure and the temperature of the gas thereby generating refrigeration.
As used herein the term “subcooling” means cooling a liquid to be at a temperature lower than the saturation temperature of that liquid for the existing pressure.
As used herein the terms “upper portion” and “lower portion” mean those sections of a column respectively above and below the mid point of the column.
As used herein the term “high purity oxygen” means a fluid having an oxygen concentration of at least 90 mole percent.


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