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A oxygen concentrating system comprising an adsorption column having a first end and a second end, a shell enclosing the column and defining a product gas storage space between the column and the shell, a product conduit connecting the product gas storage space to a product output point, a first con

A oxygen concentrating system comprising an adsorption column having a first end and a second end, a shell enclosing the column and defining a product gas storage space between the column and the shell, a product conduit connecting the product gas storage space to a product output point, a first conduit comprising at least one first valve having at least a first and second configuration, in the first configuration, compressed air flows from the feed point to the first end, and, in the second configuration, waste gas flows from the first end to the waste point, and a second conduit comprising at least one second valve having at least a first and second configuration, in the first configuration, the product gas flows from the product gas storage space to the second end, and, in the second configuration, the product gas flows from the second end to the storage space.

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1. An oxygen concentrating system comprising: an adsorption column containing an adsorbent, said column having a first end and a second end;a shell enclosing said column and defining a product gas storage space between said column and said shell;a product conduit operatively connecting said product

1. An oxygen concentrating system comprising: an adsorption column containing an adsorbent, said column having a first end and a second end;a shell enclosing said column and defining a product gas storage space between said column and said shell;a product conduit operatively connecting said product gas storage space to a product output point;a first conduit operatively connecting said first end of said column to a feed point, and said first end to a waste point, said first conduit comprising at least one first valve having at least a first and second configuration, in said first configuration, compressed air flows from said feed point to said first end, and, in said second configuration, waste gas flows from said first end to said waste point; anda second conduit operatively connecting said second end of said column to said product gas storage space, said second conduit comprising at least one second valve having at least a first and second configuration, in said first configuration, product gas produced by said adsorption column flows from said product gas storage space to said second end, and, in said second configuration, said product gas flows from said second end to said product gas storage space. 2. The oxygen concentrating system of claim 1, further comprising a process controller configured for controlling said first and second valves to execute the following steps: (a) configuring at least one of said first or second valves in its respective first configuration to pressurize said column;(b) configuring said first valve in its first configuration and said second valve in its second configuration to feed compressed air into said column, thereby producing said product gas which flows into the storage space through said second conduit;(c) configuring said first valve in said second configuration to depressurize said column by venting waste gas from said column to said waste point;(d) configuring said second valve in said first configuration to purge said column by flowing at least a portion of said product gas through said second end of said column and venting waste gas from said column to said waste point; and(e) reiterating steps (a)-(d). 3. The oxygen concentrating system of claim 2, wherein steps (a)-(d) are performed in about 3 to 6 seconds. 4. The oxygen concentrating system of claim 3, wherein step (a) is performed in less than 1 second. 5. The oxygen concentrating system of claim 3, wherein step (b) is performed in about 0.5 to 2 seconds. 6. The oxygen concentrating system of claim 3, wherein step (c) is performed for at least 1 second. 7. The oxygen concentrating system of claim 3, wherein step (d) is performed for at least 1 second. 8. The oxygen concentrating system of claim 1, wherein said adsorbent comprises bound particles of LiX zeolite crystals having a particle diameter of about 300 to about 1000 micron. 9. The oxygen concentrating system of claim 8, wherein said particle diameter is about 300 to about 700 micron. 10. The oxygen concentrating system of claim 1, further comprising a desiccant at said first end. 11. The oxygen concentrating system of claim 1, wherein said system has a BSF of about 30 to about 60 lbs/TPD O2. 12. The oxygen concentrating system of claim 1, wherein said first conduit comprises a quick connect at said feed point. 13. The oxygen concentrating system of claim 1, wherein said first and second valves have a valve constants (Cv) larger than 1.5. 14. The oxygen concentrating system of claim 1, wherein said first valve comprises two or more valves. 15. The oxygen concentrating system of claim 1, wherein said second valve comprises two or more valves. 16. The oxygen concentrating system of claim 1, wherein said column has a length to diameter ratio between about 0.3 and about 2.5. 17. A method of concentrating oxygen using an oxygen concentrating device, said device having an adsorption column containing an adsorbent and having a first end and a second end, said column being enclosed by a shell to define a product gas storage space between said column and said shell; said method comprising at least the steps of: (a) pressurizing said column with at least one of compressed air or first product gas from said storage space;(b) feeding compressed air into said column thereby producing second product gas from said second end which flows into said storage space;(c) depressurizing said column by venting waste gas from said column;(d) purging said column by flowing a first portion of said second product gas into said second end of said column and venting waste gas from said first end;(e) reiterating steps (a)-(d); and(f) withdrawing product gas either essentially continuously during steps (a)-(d) or intermittently. 18. The method of claim 17, wherein product gas is withdrawn essentially continuously during steps (a)-(d). 19. The method of claim 17, wherein, in step (a), the column is pressurized by said first product gas from said storage space. 20. The method of claim 17, wherein, in step (a), the column is pressurized to about 2 to about 6 atm. 21. The method of claim 17, wherein said product storage space is pressurized to about 2 to about 4 atm. 22. The method of claim 17, wherein said system has a BSF of about 30 to about 60 lbs/TPD O2, an O2 recovery value of 25-35%, a cycle time of steps (a)-(d) of about 3 to about 5 seconds, and produces no less than about 90% O2 enriched product gas.