Filament extension atomizers

The invention claimed is: 1. An atomization device, comprising: a first roller having a plurality of grooves disposed across a first surface the first roller, each of the plurality of grooves enclosed by a pair of fins that extend away from the first surface; a second roller configured to counter-rotate with respect to the first roller, the second roller having a plurality of channels disposed across a second surface; the first and second rollers aligned with each other such that the plurality of grooves of the first roller mate with the plurality of channels of the second roller to form a plurality of enclosures; a fluid source configured to coat at least a surface of at least one of the rollers with a feed fluid; wherein a nip is defined between each of the mated surfaces of the first and second rollers, and the feed fluid is drawn through each nip from an upstream side to a downstream side, such that the fluid is stretched on the downstream side of each nip as the first and second rollers counter-rotate; and a plurality of air tubes, each air tube extending through a corresponding one of the plurality of enclosures and configured to deliver a quantity of air directed towards the downstream side of the plurality of the nips. 2. The atomization device of claim 1 , wherein the plurality of air tubes are connected to a common manifold. 3. The atomization device of claim 1 , wherein the fluid source is a feed system having a plurality of feed tubes in fluid communication with a common feed fluid delivery rail, the plurality of feed tubes aligned with the first roller and configured to deposit at least a quantity of feed fluid from the common feed fluid delivery rail onto the first surface of the first roller. 4. The atomization device of claim 3 , wherein the common feed fluid delivery rail is configured to heat the feed fluid. 5. The atomization device of claim 3 , wherein the feed system further comprises a first doctor blade, the first doctor blade positioned a distance from the first surface of the first roller. 6. The atomization device of claim 5 , wherein the first doctor blade is configured to have a profile that is substantially inverse to a profile of the first roller. 7. The atomization device of claim 5 , further comprising at least a second doctor blade having a profile substantially inverse to a profile of the second roller, the second doctor blade positioned a distance from the surface of the second roller. 8. The atomization device of claim 1 , further comprising a housing including side walls and an exit port, the first and second rollers and the fluid source are disposed within the housing. 9. The atomization device of claim 8 , wherein the side walls are insulative. 10. The atomization device of claim 8 , further comprising a heat source configured to heat at least one of an interior of the housing, the pair of counter-rotating rollers, the fluid source and the feed fluid. 11. The atomization device of claim 8 , further comprising a baffle unit having a pair of exterior baffles and an interior baffle positioned between the exterior baffles, the interior baffle configured to direct a baffle fluid towards the downstream side of the nip. 12. The atomization device of claim 8 , further comprising a heat source configured to heat the baffle fluid.