Low splash fluid shutoff valve assembly

What is claimed is: 1. A fluid shutoff valve assembly for a fluid filling line, the valve assembly having a fluid flow path defining a direction of fluid flow, the assembly comprising: a fluid inlet orifice in fluid communication with a source of a fluid, the fluid inlet orifice allowing the fluid to flow in the direction of fluid flow from the source of the fluid into the fluid flow path of the valve assembly, wherein the fluid entering into the fluid inlet orifice is at a pressure greater than atmospheric pressure; a fluid outlet orifice in fluid communication with the fluid flow path of the valve assembly and through which the fluid may flow out of the valve assembly; a fluid shutoff valve in fluid communication with the fluid inlet orifice and the fluid outlet orifice, the fluid shutoff valve having a fluid blocking portion and a fluid flow-through portion, the fluid shutoff valve being moveable from a filling position wherein the fluid flow-through portion is aligned with the fluid flow path to a closed position wherein the fluid blocking portion is aligned with the fluid flow path, wherein the fluid shutoff valve is oriented such that the fluid shutoff valve moves in a direction that is generally perpendicular to the direction of fluid flow at a location where the fluid shutoff valve intercepts the fluid flow path; and a pressure isolation valve in addition to the fluid shutoff valve, the pressure isolation valve being located upstream of the fluid shutoff valve and configured to shut off the source of fluid from the fluid flow path while the fluid shutoff valve is in at least a partially open configuration, wherein the pressure isolation valve is configured to close before the fluid shutoff valve. 2. The fluid shutoff valve assembly of claim 1 wherein the fluid shutoff valve is a piston-type valve. 3. The fluid shutoff valve assembly of claim 1 wherein the fluid shutoff valve is a rotating valve and the rotating valve has an axis of rotation that is generally perpendicular to the fluid flow path. 4. The fluid shutoff valve assembly of claim 1 wherein the fluid shutoff valve is oriented such that the fluid shutoff valve moves in a direction that is at least about 60 degrees different from the direction of fluid flow. 5. The fluid shutoff valve of claim 1 wherein the fluid flow path includes a reservoir region between the pressure isolation valve and the fluid shutoff valve along the fluid flow path. 6. The fluid shutoff valve assembly of claim 5 wherein the reservoir region has a length between 5 mm and 500 cm. 7. The fluid shutoff valve assembly of claim 5 wherein reservoir region has a volume of between 150 mm 3 and 200,000 cm 3 . 8. The fluid shutoff valve assembly of claim 1 wherein the pressure isolation valve is a piston-type valve that moves in a first direction that is generally perpendicular to the direction of fluid flow at a location where the pressure isolation valve intercepts the fluid flow path. 9. The fluid shutoff valve assembly of claim 8 wherein the fluid shutoff valve moves in a second direction substantially opposite to the first direction. 10. The fluid shutoff valve assembly of claim 1 wherein the pressure isolation valve is configured to close between 0.1 ms and 10 seconds before the fluid shutoff valve. 11. The fluid shutoff valve assembly of claim 5 , wherein the reservoir region includes at least one mixing port. 12. The fluid shutoff valve assembly of claim 5 , wherein the reservoir region includes at least one static or dynamic mixer. 13. The fluid shutoff valve assembly of claim 1 wherein the fluid shutoff valve is disposed adjacent a filling nozzle and is in fluid communication therewith. 14. The fluid shutoff valve assembly of claim 13 wherein the filling nozzle has more than one orifice through which the fluid passes. 15. The fluid shutoff valve assembly of claim 14 wherein the fluid shutoff valve is oriented such that the fluid shutoff valve moves in a direction that is generally perpendicular to the direction of fluid flow at a location where the fluid shutoff valve intercepts the fluid flow path through at least one of the orifices of the nozzle. 16. The fluid shutoff valve assembly of claim 1 wherein the fluid shutoff valve is configured to seal the outlet orifice when the fluid shutoff valve is closed. 17. The fluid shutoff assembly of claim 16 wherein the vacuum device is a piston-type valve. 18. A fluid shutoff valve assembly for a fluid filling line, the valve assembly having a fluid flow path defining a direction of fluid flow, the assembly comprising: a fluid inlet orifice in fluid communication with a source of a fluid that is under pressure, the fluid inlet orifice allowing the fluid to flow in the direction of fluid flow from the source of the fluid into the fluid flow path of the valve assembly; a fluid outlet orifice in fluid communication with the fluid flow path of the valve assembly and through which the fluid may flow out of the valve assembly; a first valve in fluid communication with the fluid inlet orifice and having a first valve open configuration which allows the fluid to flow through the first valve and a first valve closed configuration that prevents fluid from flowing past the first valve; and a second valve in fluid communication with the first valve and the fluid outlet orifice, the first valve and the second valve being separated from each other by a reservoir region having a length of at least 5 mm, the second valve having a second valve open configuration which allows the fluid to flow through the second valve and a second valve closed configuration that prevents fluid from flowing past the second valve, wherein the second valve is oriented such that the second valve moves in a direction that is generally perpendicular to the direction of fluid flow at a location where the second valve intercepts the fluid flow path, and wherein the valve assembly is configured such that the first valve closes before the second valve closes, thereby reducing the pressure of the fluid in the fluid flow path located between the first valve and the second valve prior to the second valve closing. 19. The fluid shutoff valve assembly of claim 18 wherein the second valve is a piston-type valve. 20. The fluid shutoff valve assembly of claim 18 wherein the second valve is a rotating valve and the rotating valve has an axis of rotation that is generally perpendicular to the fluid flow path. 21. The fluid shutoff valve assembly of claim 18 , wherein the reservoir region includes at least one mixing port. 22. The fluid shutoff valve assembly of claim 18 , wherein the reservoir region includes at least one static or dynamic mixer. 23. The fluid shutoff valve assembly of claim 18 wherein the second valve is disposed adjacent a filling nozzle and is in fluid communication therewith. 24. The fluid shutoff valve assembly of claim 23 wherein the filling nozzle has more than one orifice through which the fluid passes. 25. The fluid shutoff valve assembly of claim 24 wherein fluid shutoff valve is oriented such that the fluid shutoff valve moves in a direction that is generally perpendicular to the direction of fluid flow at a location where the second valve intercepts the fluid flow path through at least one of the orifices of the nozzle. 26. The fluid shutoff valve assembly of claim 18 wherein the second valve is configured to seal the outlet or