RU2740992C1 - Apparatus for concentrating and purifying helium - Google Patents

Abstract

FIELD: gas industry.

SUBSTANCE: invention relates to equipment for producing helium from mixtures of non-condensed and inert gases and can be used in gas industry. Invention relates to an apparatus for concentrating and purifying helium, comprising a helium pre-concentration unit, equipped with a helium-containing gas feed line and a helium concentrate discharge line with a recuperative heat exchanger, as well as a membrane unit, a compressor, a hydrogen purification unit and a short-cycle adsorption unit. Helium pre-concentration unit is equipped with a discharge line of the mixture of non-condensed and inert gases, and after the recuperative heat exchanger, a helium concentrate outlet line is provided with a compressor and a hydrogen purification unit, equipped with an oxygen-containing gas feed line and comprising a catalyst for catalytic oxidation of hydrogen, a cooler, a separator, adsorption after drying unit and recuperative heat exchanger of hydrogen purification unit, wherein the latter is connected to reactor by helium concentrate supply lines and output of oxidation products, on which there is a refrigerator and a separator, equipped with a water discharge line and a separation gas discharge line with an adsorption finish drying unit equipped with a regeneration gas discharge line. Cooler is connected to discharge line of mixture of non-condensed and inert gases by its part supplying line as coolant, and with adsorption pre-drying unit - supply line of part of heated mixture as purging gas, in addition, after adsorption finish drying unit on separation line of separation gas there is a membrane unit, connected to the helium pre-concentration unit by the retentate supply line equipped with the recuperative heat exchanger, and the short-cycle adsorption unit, equipped with cleaned helium discharge line and connected by regeneration gas supply line to inlet to membrane unit.

EFFECT: technical result is simplification of installation, elimination of neon accumulation in cycle and provision of favourable temperature mode of membrane unit operation.

1 cl, 1 dwg

Description

The invention relates to equipment for producing helium from mixtures of non-condensable and inert gases and can be used in the gas industry.

Known installation for fine purification of helium concentrate [Kopsha D.P. Possible ways to optimize the process of fine purification of helium concentrate / D.P. Kopsha, I.V. Gogolev, V.D. Izyumchenko // Scientific and technical collection of NEWS OF GAS SCIENCE. - 2015. - No. 1 (21). - P.39-44], consisting of a purification unit from hydrogen and a purification unit from nitrogen, including units of short-cycle adsorption, obtaining enriched nitrogen on membranes, and low-temperature adsorption purification from trace impurities of nitrogen and inert gases.

The disadvantage of the known installation is the low degree of helium recovery due to irreversible losses of helium with enriched nitrogen.

Closest to the proposed invention is a helium purification unit [Nikolaev V.V. Prospects for the use of membrane gas separation processes in the processing of natural gases / V.V. Nikolaev, S.A. Sirotin // Chemical and Oil Engineering. - 1996. - No. 6. - С.11-12], which includes a counterflow condenser (helium preconcentration unit), a jet compressor, a recuperative heat exchanger, a first membrane, a compressor, a hydrogen purification unit (unit), a PSA nitrogen purification unit located on the helium-containing gas supply line (short-cycle adsorption unit), and a second membrane connected to the pressure-swing adsorption unit by an apermeate (retentate, backflow, blow-off) supply line as a purge gas, then supplied to the inlet of the first membrane.

The disadvantages of this installation are its inoperability in the presented form. Firstly, due to the accumulation of neon in the cycle, which, as part of the retentate of the second membrane through the PSA-purification apparatus from nitrogen, is directed to the inlet of the first membrane, and then is recycled, partly as part of the permeate of the first membrane, and partly as part of the retentate of the first membrane supplied by a jet compressor to a counter-current condenser, where neon is stripped and removed from the top of the condenser with 85% helium concentrate. The accumulation of neon in the cycle will lead to a drop in the temperature of the top of the counterflow condenser and the impossibility of cooling it with liquid nitrogen. In addition, the operating mode of the second membrane will be disrupted, which will not be able to provide the standard content of neon in purified helium. Secondly, due to the low temperature of the helium concentrate removed from the counterflow condenser at minus 190-195 ° C, the first membrane will not be able to work due to the glass transition of the membrane polymer and the loss of its mechanical strength. In this case, the recuperative heat exchanger does not provide an increase in the temperature of the helium concentrate, since the retentate of the first membrane with an even lower temperature than the inlet flow is fed into it as a coolant (the process of membrane separation of helium concentrate is endothermic).

The objective of the present invention is to simplify the installation, eliminate the accumulation of neon in the cycle and provide a favorable temperature regime for the operation of the first membrane (membrane unit).

The technical result is to simplify the installation by eliminating the jet compressor by placing the compressor in front of the membrane unit, excluding the accumulation of neon in the cycle by removing the neon-containing mixture of non-condensable and inert gases, purified from helium, from the pre-concentration unit and excluding the internal circulation of neon-containing streams, as well as ensuring favorable temperature mode of operation due to the location of the membrane unit after the compressor and the hydrogen purification unit, in which the temperature of the purified helium rises.

The specified technical result is achieved by the fact that in the proposed installation, which includes a block for preliminary concentration of helium, equipped with a helium-containing gas input line and a helium concentrate output line with a recuperative heat exchanger, as well as a membrane unit, a compressor, a hydrogen purification unit and a short-cycle adsorption unit, the feature is the fact that the block for preliminary concentration of helium is equipped with a line for the output of a mixture of non-condensable and inert gases, and after the recuperative heat exchanger on the line for the output of helium concentrate there is a compressor and a hydrogen purification unit equipped with an oxygen-containing gas input line and including a reactor for catalytic hydrogen oxidation, a refrigerator, a separator, a unit adsorption additional drying and a recuperative heat exchanger of the hydrogen purification unit, while the latter is connected to the reactor by lines for supplying helium concentrate and removing oxidation products, on which a refrigerator and a separator equipped with a line are located. water and a separation gas outlet line with an adsorption additional drying unit equipped with a regeneration gas outlet line, and the refrigerator is connected to the outlet line of a mixture of non-condensable and inert gases by a supply line of its part as a refrigerant, and with an adsorption additional drying unit - by a supply line of a part of the heated mixture as purge gas, in addition, after the adsorption after-drying unit on the separation gas outlet line, there is a membrane unit connected to the helium pre-concentration unit by a retentate supply line equipped with a recuperative heat exchanger, and a pressure swing adsorption unit equipped with a purified helium outlet line and connected by a regeneration gas supply line to the entrance to the membrane block.

The helium preconcentration unit includes at least one rectification column with a recuperative heat exchanger. The catalytic oxidation reactor is an apparatus filled with, for example, a platinum-containing catalyst. As the rest of the installation elements, any device for the corresponding purpose known from the prior art can be installed.

The elimination of the jet compressor by placing the compressor in front of the diaphragm assembly simplifies installation. The elimination of the accumulation of circulating neon is achieved by removing the neon-containing mixture of non-condensable and inert gases purified from helium from the pre-concentration unit and by eliminating the internal circulation of neon-containing streams. Ensuring a favorable temperature regime for the operation of the membrane unit (30-150 ° C, depending on the membrane material) is achieved by the location of the latter after the compressor and the hydrogen purification unit, in which the temperature of the purified concentrate rises.

The installation is shown in the attached drawing and includes a helium pre-concentration unit 1, a recuperative heat exchanger 2, a compressor 3, a hydrogen purification unit, consisting of a catalytic reactor 4, a recuperative heat exchanger of a hydrogen purification unit 5, a refrigerator 6, a separator 7 and an adsorption additional drying unit 8, as well as a membrane unit 9 and a short-cycle adsorption unit 10. If it is necessary to finely purify helium from trace impurities, the installation is additionally equipped with a unit 11 made in the form of a low-temperature adsorption unit (shown in the drawing) or a membrane unit (not shown).

When the unit is operating, gas with a helium content of 0.3-5% is separated in block 1 to obtain a mixture of non-condensable and inert gases, which is discharged through lines 13 and 80-90% helium concentrate, for example, at 1.5-3 MPa and minus 190-195 ° C, which is heated in heat exchanger 2, compressed by compressor 3 to 2.5-5.5 MPa, mixed with oxygen-containing gas, for example, air or oxygen supplied through line 15 in an amount not less than stoichiometric, heated in heat exchanger 5 and sent to the reactor 4, where in the presence of a catalyst, hydrogen is oxidized to form oxidation products containing water vapor. Oxidation products with a temperature, as a rule, not lower than 300 ° C are removed through line 16, cooled in heat exchanger 5, cooler 6 and separated in separator 7 into water removed from the plant through line 17 and separation gas, which is removed through line 18, it is dried in block 8, mixed with the regeneration gas of block 10, supplied through line 19, and at a given temperature is sent to block 9. The resulting permeate, containing, for example, 99% helium, is withdrawn through line 20 and purified in block 10 to obtain helium, containing, for example, 99.99% helium, discharged through line 21. A part of a mixture of non-condensable and inert gases is fed into refrigerator 6 as a refrigerant from line 13 through line 22, having a temperature of, for example, minus 95-105 ° C, heating it to , as a rule, not lower than 250 ° C at 0.01-0.05 MPa. Part of the heated mixture is fed through line 23 to block 8 as a purge gas, and the remainder is removed. Regeneration gas of unit 8 is removed from the unit through line 24. Retentate containing, for example, 30% helium, is removed from unit 9 through line 25, cooled in heat exchanger 2, for example, to minus 185-190 ° C and served for concentration of helium into the unit one.

If it is necessary to lower the temperature in the reactor 4, part of the water can be supplied to line 14 through line 26 from line 17, in addition, hydrocarbon concentrate can be additionally removed from unit 1 through line 27, and purified helium can be subjected to fine purification from micro impurities in unit 11, at the same time, when using low-temperature adsorption as a refrigerant, a part of the stream can be supplied from line 22, which is then discharged through line 28 similarly to the adsorbent regeneration gas of unit 11, discharged through line 29 (shown by dashed lines).

Thus, the proposed installation is simpler, makes it possible to exclude the accumulation of neon in the cycle, provides a favorable temperature regime for the operation of the membrane unit and can be used in the gas industry.

Claims (1)

Installation for concentration and purification of helium, including a block for pre-concentration of helium, equipped with a helium-containing gas inlet line and a helium concentrate outlet line with a recuperative heat exchanger, as well as a membrane block, a compressor, a hydrogen purification block and a short-cycle adsorption block, characterized in that the pre-concentration block helium is equipped with an outlet line for a mixture of non-condensable and inert gases, and after the recuperative heat exchanger, a compressor and a hydrogen purification unit are located on the helium concentrate outlet line, equipped with an oxygen-containing gas injection line and including a catalytic hydrogen oxidation reactor, a refrigerator, a separator, an adsorption additional drying unit and a recuperative heat exchanger of the unit purification from hydrogen, while the latter is connected to the reactor by supply lines for helium concentrate and output of oxidation products, on which a refrigerator and a separator are located, equipped with a water output line and a separation gas output line from evil adsorptive drying, equipped with a line for the outlet of the regeneration gas, and the refrigerator is connected to the outlet line of the mixture of non-condensable and inert gases by the supply line of its part as a refrigerant, and with the unit of adsorption additional drying - by the supply line of a part of the heated mixture as a purge gas, in addition, after the unit After adsorption drying, a membrane unit is located on the separation gas outlet line, connected to the helium preconcentration unit by a retentate supply line equipped with a recuperative heat exchanger, and a pressure swing adsorption unit equipped with a purified helium outlet line and connected by a regeneration gas supply line to the membrane unit inlet.

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