Methods and systems for creating aerosols

The invention claimed is: 1. An aerosol creation system, comprising: a first roller; a second roller spaced apart from the first roller; a ring within which the first roller and the second roller are positioned; a first nip defined between a surface of the first roller and an interior surface of the ring, the first nip having an upstream side and a downstream side; a second nip defined between a surface of the second roller and the interior surface of the ring, the second nip having an upstream side and a downstream side; a fluid source that coats the first roller and the second roller with a fluid; a driving element structured to drive the first roller and the second roller to co-rotate and to cause the fluid on the first roller to be drawn through the upstream side of the first nip to the downstream side of the first nip to be stretched between diverging surfaces of the first roller and the interior surface of the ring and to cause the fluid on the second roller to be drawn through the upstream side of the second nip to the downstream side of the second nip to be stretched between diverging surfaces of the second roller and the interior surface of the ring, and wherein the fluid stretched between the diverging surfaces of the first roller and the interior surface of the ring forms a first fluid filament that breaks into a plurality of first droplets and the fluid stretched between the diverging surfaces of the second roller and the interior surface of the ring forms a second fluid filament that breaks into a plurality of second droplets. 2. The aerosol creation system of claim 1 , wherein the first roller and the second roller are positioned along an interior surface of the ring in a circular configuration. 3. The aerosol creation system of claim 2 , wherein the circular configuration of the first roller and the second roller define a central interior space and the fluid source coats the first roller and the second roller with the fluid from a position within the central interior space. 4. The aerosol creation system of claim 2 , wherein the fluid source coats the first roller and the second roller with the fluid by coating at least a portion of the interior surface of the ring on an upstream side of the first nip and on an upstream side of the second nip. 5. The aerosol creation system of claim 2 , wherein the first roller is in physical contact with the interior surface of the ring at the first nip and the second roller is in physical contact with the interior surface of the ring at the second nip. 6. The aerosol creation system of claim 1 , wherein the fluid source coats the first roller and the second roller with the fluid from a position between the first roller and the second roller. 7. The aerosol creation system of claim 1 , wherein the driving element is further structured to drive the ring to rotate in the same direction as the first roller and the second roller. 8. The aerosol creation system of claim 1 , further comprising a first doctoring blade that controls the thickness of the fluid on the first roller and a second doctoring blade that controls the thickness of the fluid on the second roller. 9. The aerosol creation system of claim 1 , wherein a fluid pressure on the upstream sides of the first nip and the second nip is greater than a fluid pressure on the downstream sides of the first nip and the second nip. 10. The aerosol creation system of claim 1 , further comprising a third roller spaced apart from the first roller and the second roller and positioned within the ring and a third nip defined between a surface of the third roller and an interior surface of the ring, the third nip having an upstream side and a downstream side, and wherein the driving element is structured to drive the third roller to co-rotate with the first roller and the second roller and to cause fluid to be drawn through the upstream side of the third nip to the downstream side of the third nip to be stretched between diverging surfaces of the third nip and the interior surface of the ring and wherein the fluid is stretched between the diverging surfaces of the third roller and the interior surface of the ring to form a third fluid filament that breaks into a plurality of third droplets. 11. The aerosol creation system of claim 1 , wherein the plurality of first droplets break in a direction away from the downstream side of the first nip and the plurality of second droplets break in a direction away from the downstream side of the second nip. 12. The aerosol creation system of claim 11 , further comprising a harvesting element that collects the plurality of first droplets and the plurality of second droplets.