Through-air apparatus to reduce infiltration of ambient air

What is claimed is: 1. A through-air apparatus for drying or bonding paper, tissue, or nonwoven webs, the apparatus comprising: a web-carrying structure configured to move; a first component having at least one sealing element adjacent the web-carrying structure, wherein the at least one sealing element is configured to reduce the infiltration of ambient air into the through-air apparatus; and at least one channel configured to direct air to the at least one sealing element to reduce the infiltration of ambient air into the through-air apparatus, wherein the at least one channel is positioned within the web-carrying structure and is configured to direct air out from the web-carrying structure. 2. The apparatus of claim 1 , wherein the first component is configured to be stationary, and the web-carrying structure is movable relative to the stationary first component. 3. The apparatus of claim 1 , wherein the web-carrying structure is a through-air roll configured for rotational movement about a first axis, and wherein the at least one channel is configured to direct air radially outwardly from the through-air roll. 4. The apparatus of claim 3 , wherein the first component and the at least one sealing element are positioned within the through-air roll. 5. The apparatus of claim 1 , wherein the first component includes one or more exhaust ducts, and the at least one sealing element includes at least one exhaust duct sealing element, and wherein the at least one channel is configured to direct air to the at least one exhaust duct sealing element to reduce the infiltration of ambient air into the through-air apparatus. 6. The apparatus of claim 3 , wherein the through-air apparatus includes an active zone and an inactive zone, wherein the first component includes an internal baffle and an inactive zone blocking plate which is positioned in the inactive zone of the through-air apparatus, and the at least one sealing element includes at least one blocking plate sealing element; and wherein the at least one channel is configured to direct air to the at least one blocking plate sealing element to reduce the infiltration of ambient air through the inactive zone and into the through-air apparatus. 7. The apparatus of claim 6 , further comprising: a second component having at least one sealing element adjacent the through-air roll, wherein the at least one second component sealing element is configured to reduce the infiltration of ambient air into the through-air apparatus; and at least one channel configured to direct air to the at least one second component sealing element to reduce the infiltration of ambient air into the through-air apparatus; wherein the second component includes one or more exhaust ducts, and the at least one second component sealing element includes at least one exhaust duct sealing element, and wherein the at least one channel is configured to direct air to the at least one exhaust duct sealing element to reduce the infiltration of ambient air into the through-air apparatus. 8. The apparatus of claim 1 , wherein the at least one channel is configured to recirculate system air from another portion of the through-air apparatus to the at least one sealing element. 9. The apparatus of claim 1 , wherein the at least one channel is configured to flow heated air from at least one of a Yankee hot air system exhaust air stream, a vacuum pump exhaust air stream, a turbine exhaust air stream, or any other heated air stream, to the at least one sealing element. 10. The apparatus of claim 3 , wherein the through-air apparatus includes an active zone and an inactive zone, wherein the first component includes a plenum which is configured to cover either the active zone or the inactive zone of the through-air apparatus; and wherein the at least one channel is configured to direct air through the plenum and to the at least one sealing element to reduce the infiltration of ambient air into the through-air apparatus. 11. The apparatus of claim 1 , wherein the first component includes at least one of a perforated plate, nozzles, channels, and slots to distribute air to the at least one sealing element. 12. The apparatus of claim 1 , wherein the air flow through the channel is controlled through the adjustment of fan speeds, damper positions, or variable flow restrictions within the channel or the sealing element themselves, or other means to allow for even distribution of the air to the at least one sealing element. 13. The apparatus of claim 3 , wherein at least a portion of the channel extends within the through-air roll and along the first axis. 14. The apparatus of claim 1 , further comprising a fan configured to pump air to the at least one sealing element. 15. The apparatus of claim 1 , wherein the web-carrying structure is a flatbed belt configured for translational movement along either a horizontal or an inclined plane. 16. A method of operating a through-air apparatus for drying or bonding paper, tissue, or nonwoven webs, the method comprising: placing a web on a portion of a web-carrying structure; moving the web-carrying structure such that the web moves with the web-carrying structure; directing process air through the web-carrying structure, wherein the process air exits into a through-air apparatus exhaust duct; providing a first component having at least one sealing element adjacent to the web-carrying structure, wherein the at least one sealing element on the first component is configured to reduce the infiltration of ambient air into the through-air apparatus; and directing heated air to the at least one sealing element to reduce the infiltration of ambient air into the through-air apparatus, wherein the heated air directed to the sealing element is sourced from a location other than the through-air apparatus exhaust duct. 17. The method of claim 16 , wherein the heated air is sourced from at least one of pre-heated ambient air, turbine exhaust gas, Yankee hot air system exhaust air, vacuum pump exhaust air, or other heated air streams in a paper machine or mill environment, or any other hot air source, and wherein the heated air is not only sourced from the through-air apparatus exhaust duct. 18. A through-air apparatus for drying or bonding paper, tissue, or nonwoven webs, the apparatus comprising: a) a rotating web-carrying structure comprising a carrying surface having a plurality of openings to permit the passage of air, and a web wrap angle defining angular active and inactive zones of the web-carrying structure and creating active and inactive air flow zones of the through-air apparatus; b) a stationary structure which the rotating web-carrying structure rotates relative to, wherein the stationary structure is positioned to cover the inactive zone of the through-air apparatus, the stationary structure comprising one or more sealing elements configured to reduce in-leak of ambient air into the active zone of the through-air apparatus relative to an otherwise identical structure lacking the one or more sealing elements; and c) one or more channels in the stationary structure, for the delivery of recirculated air, or other heated air stream through the stationary structure, to one or more of the sealing elements thereby further reducing the in-leak of ambient air into the active zone of the through-air apparatus, and wherein the one or more channels in the stationary structure cover the inactive zone to direct air through a portion of the web-carrying structure that does not include a web. 19. The apparatus o