Vacuum assisted nozzle and apparatus

What is claimed is: 1. An apparatus providing a filling cycle comprising: a nozzle comprising a nozzle inlet and a fluid flow discharge opening in fluid communication with said nozzle inlet, wherein said fluid flow discharge opening has a fluid flow discharge opening area; a fluid flow conduit in fluid communication with said nozzle inlet, said fluid flow conduit in fluid communication with a fluid source; a fluid flow valve in line with said fluid flow conduit, wherein said fluid flow valve has a fluid flow valve open position and a fluid flow valve closed position; a vacuum conduit in fluid communication with a vacuum source, said vacuum conduit comprising a vacuum opening, wherein said vacuum opening is spatially proximate to said fluid flow discharge opening, wherein said vacuum opening has a vacuum opening area, and wherein said vacuum opening area to said fluid flow discharge opening area has a ratio of less than or equal to 1; wherein said vacuum conduit intersects said fluid flow conduit at said nozzle inner surface and a vacuum valve in line with said vacuum conduit, wherein said vacuum valve has a vacuum valve open position and a vacuum valve closed position; wherein in a single filling cycle said vacuum valve transitions from said vacuum valve closed position to said vacuum valve open position before said fluid flow valve transitions from said fluid flow valve open position to said fluid flow valve closed position. 2. The apparatus according to claim 1 , wherein said vacuum opening area to said fluid flow discharge opening area has a ratio of from about 0.1 to 1. 3. The apparatus according to claim 1 , wherein said vacuum opening area to said fluid flow discharge opening area has a ratio of from about 0.4 to about 0.7. 4. The apparatus according to claim 1 , wherein said vacuum opening is approximately orthogonal to said fluid flow discharge opening. 5. The apparatus according to claim 1 , wherein said vacuum opening is approximately parallel to said fluid flow discharge opening. 6. The apparatus according to claim 1 , wherein said fluid flow conduit has a fluid flow conduit axis in line with a direction of fluid flow and wherein said vacuum conduit has a vacuum conduit axis in line with a direction of vacuum flow, wherein said fluid flow conduit axis and said vacuum conduit axis cross at a point to define an included angle there between, wherein said included angle is less than 90 degrees. 7. The apparatus according to claim 6 , wherein said included angle is about 30 degrees. 8. The apparatus according to claim 1 , wherein said vacuum opening and said fluid flow discharge opening are separated by 0 mm to about 40 mm. 9. The apparatus according to claim 1 , wherein said nozzle comprises a nozzle inner surface and said vacuum opening is coincident with said nozzle inner surface. 10. The apparatus according to claim 1 , wherein said vacuum opening is located closer to said fluid flow discharge opening than to said nozzle inlet. 11. The apparatus according to claim 1 , wherein said vacuum opening is located closer to said nozzle inlet than to said fluid flow discharge opening. 12. An apparatus providing a filling cycle comprising: a plurality of nozzles, each said nozzle comprising a nozzle inlet and a fluid flow discharge opening in fluid communication with said nozzle inlet, wherein said fluid flow discharge opening has a fluid flow discharge opening area; a plurality of fluid flow conduits, each fluid flow conduit in fluid communication with a single nozzle inlet, said plurality of fluid flow conduits in fluid communication with a fluid source; a fluid flow valve in line with said plurality of fluid flow conduits, wherein said fluid flow valve has a fluid flow valve open position and a fluid flow valve closed position; a fluid flow manifold in line with said plurality of fluid flow conduits between said fluid flow valve and said plurality of nozzles, and is in fluid communication with said plurality of nozzles; a plurality of vacuum conduits in fluid communication with a vacuum source, each said vacuum conduit comprising a vacuum opening, wherein said vacuum opening is spatially proximate to said fluid flow discharge opening and wherein said vacuum opening has a vacuum opening area, wherein said vacuum opening area to said fluid flow discharge opening area has a ratio of less than or equal to 1; wherein said vacuum conduit intersects said fluid flow conduit at said nozzle inner surface; a vacuum valve in line with said plurality of vacuum conduits, wherein said vacuum valve has a vacuum valve open position and a vacuum valve closed position; a vacuum manifold in line with said plurality of vacuum conduits between said vacuum valve and said vacuum opening, and wherein in a single filling cycle said vacuum valve transitions from said vacuum valve closed position to said vacuum valve open position before said fluid flow valve transitions from said fluid flow valve open position to said fluid flow valve closed position. 13. The apparatus according to claim 12 , wherein more than one said vacuum opening is spatially proximate to one said fluid flow discharge opening. 14. A process of dispensing fluid comprising the steps of: providing an apparatus wherein said apparatus comprises a nozzle wherein said nozzle comprises a fluid flow discharge opening; dispensing fluid from said fluid flow discharge opening; and applying a vacuum while said fluid is dispensed; wherein said nozzle further comprises a nozzle inlet in fluid communication with said fluid flow discharge opening; and wherein said apparatus further comprises a fluid flow conduit in fluid communication with said nozzle inlet; a fluid flow valve in line with said fluid flow conduit, wherein said fluid flow valve has a fluid flow valve open position and a fluid flow valve closed position; a vacuum conduit in fluid communication with a vacuum source, said vacuum conduit comprising a vacuum opening wherein said vacuum opening is spatially proximate to said fluid flow discharge opening; wherein said vacuum conduit intersects said fluid flow conduit at said nozzle inner surface; and a vacuum valve in line with said vacuum conduit, wherein said vacuum valve has a vacuum valve open position and a vacuum valve closed position; and wherein said fluid flow valve and said vacuum valve are coupled, wherein the process further comprises the steps of placing said fluid flow valve in said fluid flow valve open position, dispensing fluid from said fluid flow discharge opening, and placing said vacuum valve in said vacuum valve open position before placing said fluid flow valve in said fluid flow valve closed position. 15. The process according to claim 14 , comprising the step of ending said vacuum once said fluid approaches a dosing amplitude of 0 mm. 16. The process according to claim 14 , wherein said apparatus dispenses said fluid into compartments selected from the group consisting of thermoformed water-soluble film, water-soluble film, plastic bottles, glass bottles, and soluble-unit dose pouches. 17. The process according to claim 16 , wherein said apparatus dispenses said fluid into said compartments, wherein said compartments are at or near the top of a rotary drum.