Device for producing purified oxygen

Abstract

A device for producing purified oxygen, has a feed (1, 1′) of a mixture of oxygen and argon, and has at least one bed (2, 2A, 2B) of oxygen adsorption material, a purge (3, 3′) for discharging the separated argon and a circuit (4, 4′) for injecting a portion of the purified oxygen produced, into the feed (1, 1′). The device has a programmable logic controller (PLC) for treating the degree of purity and/or the production flow rate that can be set by the user and a control of said purge (3, 3′) as a function of the degree of purity of the purified oxygen and/or of the production flow rate which are desired by the user.

Claims

1. Device for producing purified oxygen, comprising: a feed of a mixture of oxygen and argon; at least one bed of oxygen adsorption material; a purge for discharging separated argon; and a circuit for injecting a portion of purified oxygen produced into the feed, wherein said device further comprises programmable logic controller that controls either one of or both: treating a degree of purity of the purified oxygen and/or a production flow rate that can be set by a user; and a control of said purge as a function of the degree of purity of the purified oxygen and/or of the production flow rate which are desired by the user.

2. Device according to claim 1, wherein the control of the purge includes the actuation thereof at the same time as the injection of purified oxygen into said feed, with a volume of said purge and an injection of purified oxygen that are variable, as a function of the command received from said controller.

3. Device according to claim 2, wherein said device further comprises an analyser for the purified oxygen that provides the monitoring of said actuation and is connected to said controller.

4. Device according to claim 2, wherein said device further comprises a flow meter for the purified oxygen that provides the monitoring of said actuation and is connected to said controller.

5. Device according to claim 2, wherein said device further comprises a pressure sensor for the purified oxygen that provides the monitoring of said control and is connected to said controller.

6. Device according to claim 2, wherein said device further comprises correlation tables for the degree of purity, for the flow rate of the purge and for the volume of said purge providing the control of said controller, these correlation tables being previously recorded in the controller.

7. Device according to claim 1, wherein said device further comprises two beds of oxygen adsorption material operating in cycles according to the following phases: pressurization, purge/injection, equalization and depressurization.

8. Apparatus for producing oxygen from air comprising: a first stage of separating nitrogen; and a second stage of separating argon having a device according to claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention is described below in greater detail with the aid of figures representing only preferred embodiments of the invention.

(2) FIG. 1 is a schematic view of a device in accordance with the invention comprising a single oxygen adsorption bed.

(3) FIG. 2 is a schematic view of a device in accordance with the invention comprising two oxygen adsorption beds.

(4) FIG. 3 is a flow diagram of this device.

DETAILED DESCRIPTION

(5) As illustrated in FIG. 1, a device for producing purified oxygen is provided with a feed 1 of a mixture of oxygen and argon, and comprises a bed 2 of oxygen adsorption material, a purge 3 for discharging the separated argon and a circuit. 4 for injecting a portion of the purified oxygen produced, into the feed 1.

(6) The mixture of oxygen and argon optionally with a few traces of nitrogen, preferably originating from a first stage of separating nitrogen from air, is fed into the bed 2 containing an oxygen adsorption material which, when the mixture passes through it, retains the oxygen and releases the argon and nitrogen in the upper portion. This argon is discharged to the atmosphere through the purge 3 equipped with a purge valve 3A.

(7) In the bottom portion, via actuation of a three-way valve 9, the purified oxygen is discharged, and is depressurized in a tank 5 then stored in a tank 6 by means of a booster 7. From this tank, purified oxygen at a certain flow rate is produced.

(8) Through a line 4 from this tank, a portion of the purified oxygen may be reinjected into the oxygen and argon feed mixture and treated with this mixture in the pressurized bed 2, via control of the three-way valve 9.

(9) According to the invention, this device comprises a programmable logic controller PLC for treating the degree of purity and/or the production flow rate that can be set by the user, who can enter this data on a monitor 8.

(10) The purge valve 3 is actuated at the same time as this valve 9 for injecting purified oxygen into the mixture of oxygen and argon treated, with a purge volume and an injection volume that are variable, as a function of the command received from said controller.

(11) This PLC controller comprises a control of the purge valve 3A as a function of the degree of purity of the purified oxygen and/or of the flow rate that are desired by the user.

(12) This control may be carried out by means of an analyser, a flow meter and/or a pressure sensor for the purified oxygen chat provide the monitoring of said actuation and are connected to the controller.

(13) It may also be carried out by means of correlation tables of the degree of purity, of the flow rate of the purge and of the volume of the purge providing the control of the controller, these correlation tables being previously recorded in the controller.

(14) On the same principle, the invention may be applied to a device for producing oxygen comprising two beds 2A, 2B of oxygen adsorption material as illustrated in FIGS. 2 and 3.

(15) The device for producing purified oxygen is then provided with a feed 1′ of a mixture of oxygen and argon, and comprises two beds 2A, 2B of oxygen adsorption material, a purge 3′ for discharging the separated argon and a circuit 4′ for injecting a portion of the purified oxygen produced, into said feed 1′.

(16) The operation of this device is illustrated in FIG. 3.

(17) The mixture of oxygen and argon optionally with a few traces of nitrogen, preferably originating from a first stage of separating nitrogen from air, is fed into the first pressurized bed 2A containing an oxygen adsorption material which, when the mixture passes through it, retains the oxygen and releases the argon and traces of nitrogen in the upper portion. This argon is discharged to the atmosphere through the purge 3′ equipped with a purge valve 3′A.

(18) Via an arrangement of three-way valves 9′B, 9′C, 9′E, 9′F, the oxygen produced is then sent to the second bed 2B for equalization of the pressures of the two beds, depressurization of the first bed 2A and production of purified oxygen, then the second bed 2B is pressurized by supplying the mixture of oxygen and argon and this second bed 2B also contains an oxygen adsorption material which, when the mixture passes through it, retains the oxygen and releases the argon and traces of nitrogen in the upper portion. This argon is discharged to the atmosphere through the purge 3′.

(19) The oxygen produced is then sent to the first bed 2A for equalization of the pressures of the two beds, depressurization of the second bed 2B and production of purified oxygen, and the treatment is continued in alternate cycles.

(20) The purified oxygen produced is depressurized in a tank 5′, then stored in a tank 6′ by means of a booster 7′. From this tank, purified oxygen at a certain flow rate is produced.

(21) Through a line 4′ from this tank, a portion of the purified oxygen may be reinjected by means of valves 9′A, 9′D into the oxygen and argon feed mixture 1′ and treated with this mixture in the pressurized beds.

(22) According to the invention, this device comprises a programmable logic controller PLC, which besides controlling the various valves of the device for the production of the purified oxygen production cycles, provides control of the degree of purity and/or of the flow rate that can be set by the user, who can enter this data on a monitor 8′.

(23) The purge valve 3′ is actuated at the same time as the purified oxygen is injected by means of the valve 9′A into said feed 1′, with a purge volume and an injection of purified oxygen that are variable, as a function of the command received from the controller.

(24) This PLC controller comprises a control of the purge valve 3′A as a function of the degree of purity of the purified oxygen and/or of the flow rate which are desired by the user, as a function of the method of control selected by the user.

(25) As above, this control may be carried out by means of an analyser, a flow meter and/or a pressure sensor for the purified oxygen that provide the monitoring of the actuation and are connected to the controller.

(26) It may also be carried out by means of correlation tables of the degree of purity, of the flow rate of the purge and of the volume of the purge providing the control of the controller, these correlation tables being previously recorded in the controller.