Annular divided wall column for an air separation unit

We claim: 1. An annular column for cryogenic rectification of air or constituents of air, said column comprising: a first annular column wall; a second annular column wall radially spaced from the first annular column wall and disposed within a first interior space of the first annular column wall to define an annulus column region between the first annular column wall and the second annular column wall and to define an interior core column region as part or all of a second interior space of the second annular column wall; a plurality of structured packing elements of a first type disposed within the annulus column region; and a plurality of structured packing elements of a second type disposed within the interior core column region; wherein the first type of structured packing elements and the second type of structured packing elements have different surface area densities and the surface area densities of the first type of structured packing elements are between about 100 m 2 /m 3 to 1200 m 2 /m 3 and the second type of structured packing elements are between about 100 m 2 /m 3 to 1200 m 2 /m 3 ; and wherein the first type of structured packing elements have a first nominal inclination angle of corrugations to the horizontal axis of between about 35° to 70° and the second type of structured packing elements have a second nominal inclination angle of corrugations to the horizontal axis of between about 35° to 70° and wherein the first nominal inclination angle of corrugations to the horizontal axis of the first type of structured packing elements is different than the second nominal inclination angle of corrugations to the horizontal axis of the second type of structured packing elements. 2. The annular column of claim 1 , wherein the first annular column wall and the second annular column wall are concentrically disposed relative to one another. 3. The annular column of claim 1 , wherein the first annular column wall is cylindrical and the second annular column wall is cylindrical. 4. The annular column of claim 1 , wherein a vertical height of the first annular column wall is greater than a vertical height of the second annular column wall. 5. The annular column of claim 1 , further comprising a cap or header extending from the top of the second annular column wall to an intermediate location of the first annular column wall to partially enclose the annulus column region. 6. The annular column of claim 1 , further comprising a cap or header attached to the top of the second annular column wall to partially enclose the interior core column region. 7. The annular column of claim 1 , wherein the annulus column region is configured for rectification of an argon-oxygen containing stream to separate it into an argon-rich overhead stream and an oxygen-rich stream. 8. The annular column of claim 1 , wherein the annulus column region is configured for rectification of a nitrogen-oxygen containing stream to separate it into a nitrogen rich overhead stream and an oxygen-rich stream. 9. The annular column of claim 1 , wherein the interior core column region is configured for rectification of an argon-oxygen containing stream to separate it into an argon-rich overhead stream and an oxygen-rich stream. 10. The annular column of claim 1 , wherein the interior core column region is configured for rectification of a nitrogen-oxygen containing stream to separate it into a nitrogen rich overhead stream and an oxygen-rich stream. 11. The annular column of claim 1 , wherein the annulus column region is configured for rectification of a nitrogen-oxygen containing stream to separate it into a first nitrogen rich overhead stream and a first oxygen-rich stream of a first purity and the interior core column region is configured for rectification of the nitrogen-oxygen containing stream to separate it into a second nitrogen rich overhead stream and a second oxygen-rich stream of a second purity. 12. The annular column of claim 1 , wherein the annulus column region is configured for rectification of a nitrogen-oxygen containing stream to separate it into a first nitrogen rich overhead stream of a first purity and a first oxygen-rich stream and the interior core column region is configured for rectification of the nitrogen-oxygen containing stream to separate it into a second nitrogen rich overhead stream of a second purity and a second oxygen-rich stream. 13. The annular column of claim 1 , wherein the plurality of structured packing elements of the first type and of the second type are constructed of aluminum sheet metal or stainless steel sheet metal. 14. The annular column of claim 1 , wherein the first type of structured packing elements and the second type of structured packing elements have different surface area densities and the surface area densities of the first type of structured packing elements and the second type of structured packing elements are selected from a group consisting of: 110 m 2 /m 3 ; 220 m 2 /m 3 ; 250 m 2 /m 3 ; 350 m 2 /m 3 ; 430 m 2 /m 3 ; 500 m 2 /m 3 ; 730 m 2 /m 3 ; 950 m 2 /m 3 ; and 1200 m 2 /m 3 . 15. The annular column of claim 1 , wherein the first and second nominal inclination angle of corrugations to the horizontal axis selected from a group consisting of: 40°; 45°; and 60°. 16. The annular column of claim 1 , wherein the structured packing elements of the first type and of the second type are configured as rectangular bricks or arcuate bricks. 17. The annular column of claim 1 , wherein the surface area density of the first type of structured packing elements is between 700 m 2 /m 3 and 1000 m 2 /m 3 and the surface area density of the second type of structured packing elements is between 400 m 2 /m 3 and 700 m 2 /m. 18. The annular column of claim 1 , wherein the first nominal inclination angle of corrugations to the horizontal axis is between about 55° to 70° and the second nominal inclination angle of corrugations to the horizontal axis is between about 45° to 55°.