EP1162422A2 - Process and device for argon recovery - Google Patents

Abstract

The sump liquid present in the crude argon column is partially vaporized. Recovering argon in an air decomposition plant comprises decomposing an oxygen stream rich in argon from a low pressure column (2) of a rectification column via a line in the crude argon column (5) equipped with conventional plates and/or fillers into crude argon and a first higher boiling liquid residual fraction; cooling the head of the crude argon column of a pressure column (1) thermally coupled to the low pressure column by indirect heat exchange with vaporizing sump liquid relieved to the pressure of the low pressure column; and decomposing the crude argon fed from the head of the crude argon column into a pure argon column into pure argon and a second lower boiling fraction. The sump liquid present in the crude argon column is partially vaporized. An Independent claim is also included for an apparatus for recovering argon.

Description

The invention relates to a method and an apparatus for the production of argon, at the compressed, pre-cleaned and cooled air in a rectification system at least one rectification column and one crude argon column is broken down, according to the Features of the preamble of claims 1 and 9.

Such a method with a device for the production of argon with up to 10 ppm Contamination content is known from EP 0 377 117 B2, in which one from the so-called argon belly area of a low-pressure column of a two-stage Rectification withdrawn argon-rich oxygen fraction one with one Head condenser equipped Rohargonsäule supplied and in this at the same Pressure ratios as in the low pressure column using at least 150 theoretical floors (levels) as well as structured packings or packing in gaseous raw argon and in a heavy-boiling first liquid residual fraction disassembled, the crude argon of a further fine cleaning in a conventional Way with bottoms and with a top condenser and with a sump evaporator equipped pure argon column for the production of pure argon.

Furthermore, EP 0 628 777 B1 describes a method and an apparatus for Obtaining argon with up to 10 ppm residual oxygen known, in which the from the separation of air in a rectification system with at least one Rectification column obtained argon-containing oxygen fraction in a crude argon column and a semi-pure column equipped with a top condenser into one Argon product is broken down, with the residual fraction of the semi-pure column as reflux liquid is used for the crude argon column, the number of in the The raw argon column or semi-pure column theoretically used soils (steps) in the form of conventional floors and / or ordered packings and / or packing is at least 30 or 60, so there is no top capacitor in the crude argon column is required, which reduces the expenditure on equipment and the operating costs be lowered.

The invention has for its object a method and an apparatus initially mentioned type with little equipment and low To create operating costs for the particularly economical extraction of raw argon.

This object is achieved by a method and an apparatus according to claims 1 and 9 solved.

For the inventive, at least partial evaporation of the bottom liquid in the Crude argon column is found, preferably withdrawn from the pressure column, and preferably supercooled, oxygen-rich, liquid process stream use.

The use of bottom product from the pressure column to evaporate The sump liquid of the raw argon column has the essential advantage that the Rectification conditions in the low pressure column are not impaired, i.e. the nitrogen content contained in the side gas drawn off from the low pressure column not additionally increased, which means that at the top of the crude argon column Significant, increasing by a factor of 28 - 36 nitrogen enrichment and thus an impairment of the trouble-free operation of the crude argon condenser causing and also a, the further processing complicating nitrogen enrichment is avoided in the crude argon product.

It is particularly advantageous to use an existing, in the air separation plant, under a pressure of 10 to 100 bar air flow, which is used to heat the Evaporator used in the crude argon column and then on the Pressure level is released from the pressure or low pressure column.

The raw argon present at the top of the raw argon column is replaced by indirect Heat exchange with a liquid removed from the process condenses and at least partially fed back into the crude argon column as reflux liquid. In As a rule, bottom liquid from the high pressure column is used as the cooling medium.

A portion of the condensed crude argon fraction is withdrawn as a product and sent to further treatment of the pure argon column.

In an advantageous embodiment of the invention, the so-called Argon belly of the low pressure column under a pressure of about 1.2 to 1.6 bar withdrawn argon-rich oxygen stream before feeding into the crude argon column throttled to a pressure of 0.9 to 1.1 bar and in the crude argon column below it reduced pressure in the manner described to crude argon and liquid residual fraction rectified.

Through the pressure-reduced crude argon rectification with additional sump evaporation can the number of ordered packings and / or packing in the Crude argon column and thus the equipment and process engineering outlay at Argon production significantly reduced in all known air separation plants and thus cost-effective argon production can be guaranteed.

To obtain argon with 0.1 to 10 ppm residual oxygen content, the in Liquefied argon top fraction of the crude argon column Fine cleaning in one with a variable number of differently arranged conventional floors and / or ordered packings and / or packing, one Condenser and a bottom evaporator equipped pure argon column, in which the raw argon in liquid pure argon product and in a gaseous argon-nitrogen mixture is disassembled.

The gaseous argon-nitrogen mixture present at the top of the pure argon column is partially liquefied by indirect heat exchange in the pure argon condenser, the liquefied fraction as reflux back into the pure argon column fed and the non-liquefied portion as a gaseous purge stream in the Plant environment is blown off.

To cool the pure argon condenser, one finds from the high pressure column withdrawn gaseous stream use, which is initially in the evaporator Pure argon column condensed and then in the top condenser Pure argon column is relaxed into it.

This is used to generate the buoyancy gas required to operate the pure argon column Liquid product accumulating in the sump of the pure argon column through indirect heat exchange partially evaporated in the evaporator of the pure argon column. The portion not evaporated Swamp liquid can be a liquid pure argon product from the pure argon column subtracted from.

For the production of the fine cleaning of the raw argon in the pure argon column required pressure will be due to the between the raw and pure argon column existing hydrostatic potential is used.

The invention also relates to a device for the production of argon according to the Features of claims 9 and 10.

The invention is described below with reference to one in the drawing Embodiment explained in more detail.

The figure of the drawing shows a process diagram of an argon production according to the invention with reduced-pressure crude argon rectification and additional Crude argon column swamp evaporation.

One from, into a rectification column with a pressure column 1 by means of a condenser thermally coupled low pressure column 2 in the area of the so-called argon belly under a pressure of about 1.2 to 1.6 bar and with an argon content of 8 - 14% Oxygen flow drawn off via a line 3 is replaced by a flow in line 3 arranged throttle 4 designed, for example, as a valve or flap on a Pressure reduced from about 0.9 to 1.1 bar and under this pressure in one Crude argon column 5 using a variable number of different arranged conventional floors and / or ordered packings and / or Packings in gaseous crude argon 6 (top product) and in a bottom liquid 7 designated liquid residual fraction disassembled.

The crude argon 6 present at the top of the crude argon column 5 with 0.1 to 10 ppm Residual oxygen content is at least partially affected by indirect heat exchange a liquid removed from the process by means of a condenser 10 condensed and at least partially back into the crude argon column as reflux liquid 5 fed.

As a rule, crude argon condensation medium from the bottom of the pressure column 1 withdrawn liquid used, which for this purpose via a valve in the room of the Capacitor 10 is relaxed into it.

Part of the condensed raw argon fraction is called a liquid raw argon product withdrawn and via a line 15 of a pure argon column 16 for further treatment fed.

To optimize the reflux conditions in the crude argon column 5, the one in the bottom In the region of the crude argon column 5, at least the bottom liquid 7 present as a residual fraction partly through a process stream, for example high pressure air from 10 to 100 bar, evaporated to generate additional column return.

The at least partial evaporation of bottom liquid 7 is advantageous Crude argon column 5 from the bottom of the pressure column 1 via a line 9 in the Bottom liquid 7 arranged evaporators 11 supplied, preferably supercooled oxygen-rich liquid, use.

The unevaporated portion of bottom liquid 7 of the crude argon column 5 is called Return via a line 13 equipped with a conveyor 14 back into the low pressure column 2 fed.

To obtain argon with 0.1 to 10 ppm residual oxygen, this is called liquid Head fraction in the raw argon column 5 present raw argon 6 via the line 15 in the with a variable number of differently arranged conventional floors and / or ordered packings and / or packing elements equipped with pure argon column 16 fed and in this to pure argon product 27 and one via line 22 removable purge gas rectified.

Gaseous nitrogen-argon mixture 17 present at the top of the pure argon column 16 is by indirect heat exchange in one, through a line 20 with low-oxygen liquid from the pressure column 1 operated pure argon condenser 21 partially liquefied, with the liquefied fraction returning to the Pure argon column 16 fed and the non-liquefied portion of the nitrogen-argon mixture is blown off as a gaseous purge stream via line 22.

To cool the pure argon condenser 21 takes place from the pressure column 1 via a Line 23 supplied gaseous stream use, this first in a evaporator 24 of pure argon column 16 arranged in bottom liquid 18 condenses and then via a line 26 equipped with a throttle 25 into the Pure argon capacitor 21 is expanded into it.

The resulting in the pure argon column 16 as a high-boiling residual fraction Bottom liquid 18 is partially evaporated in the evaporator 24 and not evaporated bottom liquid 18 is withdrawn as liquid pure argon product 27.

It is advantageous for the above-described fine cleaning of the raw argon 6 in the Pure argon column 16 from the between the raw and pure argon column 5, 16th existing hydrostatic potential is used.

The argon production according to the invention is in all known air rectification systems with at least one rectification column and one crude argon column with those shown Benefits can be used.

Claims (10)

Process for the production of argon, in which compressed, pre-cleaned and cooled air is broken down in a rectification system with at least one rectification column and one crude argon column, wherein a) a argon-rich oxygen stream drawn off from a low-pressure column of the rectification column is separated into raw argon and into a first heavy-boiling liquid residual fraction via a line in the raw argon column equipped with conventional trays and / or ordered packings and / or packing elements, and b) a head cooling of the crude argon column takes place by indirect heat exchange with evaporating sump liquid, relaxed to approximately the pressure of the low pressure column, of a pressure column thermally coupled to the low pressure column and c) the crude argon introduced from the top of the crude argon column into a pure argon column is broken down into pure argon and into a second low-boiling fraction, characterized in that
the bottom liquid (7) present in the crude argon column (5) is at least partially evaporated. Method according to claim 1,
characterized in that
the bottom liquid (7) present in the crude argon column (5) is at least partially evaporated by a process stream supplied from the pressure column (1). The method of claim 1 or 2,
characterized in that
as a process stream for evaporating the bottom liquid (7) in the crude argon column (5), oxygen-rich, preferably supercooled liquid of the pressure column (1) is used. The method of claim 1 or 2,
characterized in that
high pressure air from 10 to 100 bar is used as the process stream for evaporating the bottom liquid (7) in the crude argon column (5). Method according to one of claims 1 to 4,
characterized in that
the pressure of the crude argon column (5) is lower than the pressure in the low pressure column (2). Method according to claim 5
characterized in that
the argon-rich oxygen flow in the crude argon column (5) is rectified under a pressure of about 0.9 to 1.1 bar. Method according to one of claims 1 to 6,
characterized in that
the argon-rich oxygen stream drawn off from the low-pressure column (2) is reduced before it is fed into the crude argon column (5). Method according to one of claims 1 to 7,
characterized in that
the gaseous crude argon (6) present at the top of the crude argon column (5) is at least partially condensed to return and liquid crude argon by means of sump liquid supplied from the pressure column (1). Device for the production of argon according to one of claims 1 to 8 with a rectification system with at least one rectification column and a crude argon column, wherein a low pressure column of the rectification system with a line for feeding argon-rich oxygen flow into the with a variable number of differently arranged conventional trays and / or ordered packings and / or packing and a condenser equipped raw argon column, which through a line for feeding raw argon into a variable number of differently arranged conventional trays and / or ordered packing and / or packing, a condenser and an evaporator equipped pure argon column and the Raw and pure argon columns are connected to the rectification column by means of a line system via at least one heat exchanger,
characterized in that
the crude argon column (5) has an evaporator (11). Device according to claim 9,
characterized in that
the evaporator (11) arranged in the sump area of the crude argon column (5) is connected to the pressure column (1).

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