Apparatus for reducing pressure pulsations in a gaseous fuelled internal combustion engine

We claim: 1. A body defining a restricted fluid flow passage in a fuel supply system for delivering a gaseous fuel to an internal combustion engine, said body formed for installation between and fluidly connecting a gaseous fuel supply conduit and a gaseous fuel flow passage that defines a predetermined volume between said restricted fluid flow passage and a nozzle chamber of a fuel injector from which said gaseous fuel is injected into said internal combustion engine, said restricted fluid flow passage having the smallest effective flow area between said gaseous fuel supply conduit and said nozzle chamber, wherein said restricted fluid flow passage is located a predetermined distance from an injection valve seal within the fuel injector, said predetermined distance calculated as a function of a speed of sound in the gaseous fuel and an opened time of the fuel injector, wherein the speed of sound is determined as a function of a maximum gaseous fuel pressure employed by said fuel supply system and said opened time is the maximum opened time of said fuel injector employed for said gaseous fueled internal combustion engine. 2. The body of claim 1 , wherein said predetermined distance is at least equal to the distance defined by the multiplication product of the speed of sound in the gaseous fuel and said opened time of said fuel injector. 3. The body of claim 1 , wherein said predetermined distance is at least equal to half the distance defined by the multiplication product of the speed of sound in the gaseous fuel and said opened time of said fuel injector. 4. The body of claim 1 , wherein a fluid flow area of said restricted fluid flow passage is selected as a function of said predetermined volume to maintain pressure pulsations within said gaseous fuel flow passage within a predetermined pressure range while maintaining gaseous fuel pressure within said nozzle chamber above a predetermined threshold that is needed to inject a commanded amount of gaseous fuel within a predetermined injection pulse width for each engine operating condition. 5. The body of claim 1 , being configured in at least one of the following ways: wherein said fluid flow area of said restricted fluid flow passage is further selected to maintain a mean fuel pressure in said gaseous fuel flow passage within a predetermined pressure range; wherein said fluid flow area of said restricted fluid flow passage is further selected to keep the pressure drop in said gaseous fuel flow passage during an injection event within a second predetermined pressure range; and wherein said predetermined threshold is based on a pressure in said gaseous fuel supply conduit. 6. The body of claim 1 , wherein said gaseous fueled internal combustion engine is a dual fuel engine which is fueled with said gaseous fuel and a liquid fuel whereby a fuel injector supplies both said gaseous fuel and said liquid fuel to a combustion chamber and wherein said fluid flow area of said restricted fluid flow passage is further selected to maintain a peak pressure in said gaseous fuel flow passage below a liquid fuel supply pressure. 7. A fuel supply system for a gaseous fueled internal combustion engine comprising: a gaseous fuel supply conduit; a fuel injector for injecting gaseous fuel into said internal combustion engine, said fuel injector having a first body comprising an inlet, and a nozzle chamber fluidly connected to said inlet and from which said gaseous fuel is injected into said internal combustion engine, and comprising a needle and a seat, an injection valve seal formed when said needle abuts said seat; second body formed for installation between and fluidly connecting said gaseous fuel supply conduit and a gaseous fuel flow passage of a predetermined volume through which said gaseous fuel supply conduit is connected to said nozzle chamber, said second body defining a restricted fluid flow passage for delivering said gaseous fuel to said nozzle chamber; and wherein said restricted fluid flow passage has a smallest effective area between said gaseous fuel supply conduit and said nozzle chamber and wherein a fluid flow area of said restricted fluid flow passage is selected as a function of said predetermined volume to maintain pressure pulsations within said gaseous fuel flow passage within a predetermined pressure range while maintaining gaseous fuel pressure within said nozzle chamber above a predetermined threshold which is needed to inject a commanded amount of gaseous fuel within a predetermined injection pulse width for each engine operating condition. 8. The fuel supply system of claim 7 , wherein said restricted fluid flow passage is located a predetermined distance from said injection valve seal, said predetermined distance calculated as a function of a speed of sound in the gaseous fuel and an opened time of the fuel injector, and the speed of sound is determined as a function of a maximum gaseous fuel pressure employed by said fuel supply system and said opened time is the maximum opened time of said fuel injector employed for said gaseous fueled internal combustion engine. 9. The fuel supply system of claim 7 , wherein the predetermined distance is at least equal to the distance defined by the multiplication product of a speed of sound in the gaseous fuel and an opened time of the fuel injector. 10. The fuel supply system of claim 7 , wherein the predetermined distance is at least equal to half the distance defined by the multiplication product of a speed of sound in the gaseous fuel and an opened time of the fuel injector. 11. The fuel supply system of claim 7 , being configured in at least one of the following ways: wherein said fluid flow area of said restricted fluid flow passage is further selected to maintain a mean fuel pressure within said nozzle chamber within a second predetermined pressure range; and wherein said fluid flow area of said restricted fluid flow passage is further selected to keep the pressure drop within said nozzle chamber during an injection event within a third predetermined pressure range. 12. The fuel supply system of claim 7 , being configured in at least one of the following ways: wherein said second body defining said restricted fluid flow passage is integrated with said first body of said fuel injector; and wherein said second body defining said restricted fluid flow passage is integrated with a third body of said gaseous fuel supply conduit. 13. The fuel supply system of claim 7 , wherein said fuel injector injects said gaseous fuel directly in a combustion chamber. 14. The fuel supply system of claim 7 , wherein said gaseous fuel is natural gas. 15. The fuel supply system of claim 7 , wherein said gaseous fueled internal combustion engine is a dual fuel engine which is fueled with said gaseous fuel and a liquid fuel, said fuel injector supplying both said gaseous fuel and said liquid fuel to a combustion chamber and wherein said fluid flow area of said restricted fluid flow passage is further selected to maintain a peak pressure within said nozzle chamber lower than a liquid fuel supply pressure. 16. The fuel supply system of claim 15 , wherein said fuel injector and said gaseous fuel flow passage are at least partially positioned in a cylinder head of said internal combustion engine. 17. The fuel supply system of claim 7 , wherein said gaseous fueled internal combustion engine comprises a plurality of engine cylinders, a plurality of said fuel injectors, each of said fuel injector injecting said gaseous fuel into a respective engine cylinder, a plurality of said gaseous fuel flow passages fl