Adsorbent-incorporated polymer fibers in packed bed and fabric contactors, and methods and devices using same

What is claimed is: 1. An adsorbent bed, the bed comprising, a plurality of fibers, and tortuous channels between fibers of the plurality of fibers; wherein each of the fibers comprises a polymer filament and adsorbent particles dispersed within the polymer filament; wherein the plurality of fibers are randomly packed, spirally wound, or woven into a fabric; and wherein the adsorbent bed comprises a temperature swing adsorption bed, and further comprises hollow tubes passing through the adsorbent bed, the hollow tubes having a heat transfer fluid inlet and a heat transfer fluid outlet, and a heat transfer medium therein. 2. The bed of claim 1 , wherein the bed is a rapid cycle adsorbent bed. 3. The bed of claim 1 , wherein the polymer filament comprises a porous polymer. 4. The bed of claim 1 , wherein the polymer filament comprises tortuous pathways within a porous polymer. 5. The bed of claim 1 , wherein the adsorbent particles within the polymer are in fluid communication with at least a portion of the tortuous channels of the adsorbent bed. 6. The bed of claim 1 , wherein the adsorbent content of the filaments is at least 10 wt %. 7. The bed of claim 1 , wherein the average filament diameter is less than 500 micrometers. 8. The bed of claim 1 , wherein the average size of the adsorbent particle is less than 30% of the average diameter of the filament. 9. The bed of claim 1 , wherein the adsorbent bed comprises a pressure swing adsorption bed. 10. The bed of claim 1 , wherein the plurality of fibers forms a non-woven bed of randomly packed filaments. 11. The bed of claim 1 , wherein the plurality of fibers forms a bed of spirally wound filaments. 12. The bed of claim 1 , wherein the plurality of fibers form a woven fabric of filaments, the fabric having a warp and a weft, and the woven fabric forming the tortuous channels in the spacing between filaments. 13. The bed of claim 12 , wherein the woven fabric is packaged to form a contacting structure. 14. The bed of claim 13 , wherein the contacting structure includes spacers of between about 50 micrometers and 500 micrometers. 15. An adsorbent contactor, the contactor comprising a chamber comprising: a gas feed stream inlet and a gas feed stream outlet; a plurality of fibers; and tortuous channels between fibers of the plurality of fibers; wherein each of the fibers comprises a polymer filament and adsorbent particles dispersed within the filament, the adsorbent particles being in fluid communication with at least a portion of the tortuous channels of the adsorbent bed, wherein the plurality of fibers are randomly packed, spirally wound, or woven into a fabric; and wherein the contactor is temperature swing adsorption contactor, and further comprises hollow tubes passing through the chamber, the hollow tubes having a heat transfer fluid inlet and a heat transfer fluid outlet, and a heat transfer medium therein. 16. The contactor of claim 15 , wherein the adsorbent contactor is a rapid cycle adsorbent contactor. 17. The contactor of claim 15 , wherein the polymer filament comprises a porous polymer having tortuous pathways within the porous polymer. 18. The contactor of claim 15 , wherein the adsorbent bed is a pressure swing adsorption bed. 19. The contactor of claim 15 , wherein the adsorbent content of the filaments is at least 10 wt %. 20. The contactor of claim 15 , wherein the average filament diameter is less than 500 micrometers. 21. The contactor of claim 15 , wherein the plurality of fibers forms a bed of non-woven randomly packed or spirally wound filaments, optionally supported on structural supports within the chamber, and the tortuous channels form between the randomly packed filaments. 22. The contactor of claim 15 , wherein the plurality of fibers form a woven fabric of filaments, the fabric having a warp and a weft, and the woven fabric forming the tortuous channels in the spacing between filaments. 23. The contactor of claim 22 , wherein the woven fabric is packaged to form a contacting structure. 24. The contactor of claim 23 , wherein the contacting fabric includes spacers of between about 50 micrometers and 500 micrometers. 25. A method of adsorbing a component of a medium within an adsorbent bed, the method comprising: contacting a medium with a plurality of fibers and tortuous channels between the fibers, each of the fibers comprising a polymer filament and adsorbent particles dispersed within the filament, the adsorbent particles in fluid communication with at least a portion of the tortuous channels of the adsorbent bed, and the plurality of fibers are randomly packed, spirally wound, or woven into a fabric, wherein the process is a temperature swing adsorption process, and further comprises adjusting temperature in the adsorbent bed through hollow tubes passing through the adsorbent bed, the hollow tubes having a heat transfer fluid inlet and a heat transfer fluid outlet, and a heat transfer medium therein; and selectively adsorbing a component of the medium with the plurality of fibers. 26. The method of adsorbing a component of a medium of claim 25 , further comprising desorbing the component of the medium. 27. The method of adsorbing a component of a medium of claim 26 , further comprising repeating the contacting and adsorbing. 28. The method of adsorbing a component of a medium of claim 25 , wherein the medium comprises flue gas, natural gas, fuel gas, bio gas, town gas, waste gas, water, coal gas, air, or a carbon dioxide containing medium. 29. The method of adsorbing a component of a medium of claim 25 , wherein the component is selected from CO 2 , SO x , NO x , H 2 S, and water. 30. The method of adsorbing a component of a medium of claim 25 , wherein the plurality of fibers forms a bed of randomly packed or spirally wound filaments optionally supported on structural support. 31. The method of adsorbing a component of a medium of claim 25 , wherein the plurality of fibers forms a woven fabric of filaments, the fabric having a warp and a weft, and the woven fabric forming the tortuous channels in the spacing between filaments. 32. The method of adsorbing a component of a medium of claim 25 , wherein the method is a pressure swing adsorption process. 33. The method of adsorbing a component of a medium of claim 25 , wherein the method is a rapid cycle adsorption process. 34. The method of adsorbing a component of a medium of claim 25 , wherein the method is a rapid cycle adsorption process with kinetic separation.