Cryogenic fluid system and method of operating same

What is claimed is: 1. A cryogenic fluid system comprising: a cryogenic fluid storage vessel having a cryogenic fluid outlet formed therein; a pumping system positioned within the cryogenic fluid storage vessel, and including a housing having a pumping inlet fluidly connected with an interior volume of the cryogenic fluid storage vessel, a pumping outlet structured to fluidly connect with the cryogenic fluid outlet, and a pumping chamber fluidly between the pumping inlet and the pumping outlet; the pumping system further including a pumping element movable within the pumping chamber to transition the cryogenic fluid from the pumping inlet to the pumping outlet, and an electric drive structured to actuate the pumping element; and the pumping system further including a cooling jacket forming a heat exchange cavity about the electric drive for conveying the cryogenic fluid in heat transference contact with the electric drive; wherein the cooling jacket is disposed separately from the pumping chamber and the heat exchange cavity is positioned fluidly between the pumping inlet and the pumping outlet, such that the cryogenic fluid transitioned from the pumping inlet and pumping chamber is conveyed through the heat exchange cavity to exchange heat with the electric drive prior to being transitioned to the pumping outlet. 2. The system of claim 1 wherein the electric drive includes a first electromagnetic element and a second electromagnetic element inductively coupled with the first electromagnetic element, and the cooling jacket envelops the first electromagnetic element but not the second electromagnetic element. 3. The system of claim 2 further comprising a vaporizer and an outlet conduit coupling the cryogenic fluid outlet to the vaporizer. 4. The system of claim 2 wherein the electric drive includes a linear electric motor, and the pumping element includes a piston coupled to reciprocate with the linear electric motor. 5. The system of claim 4 wherein the first electromagnetic element includes a fixed electromagnetic element, and the second electromagnetic element includes a movable electromagnetic element. 6. The system of claim 5 wherein the cooling jacket extends between the fixed electromagnetic element and the movable electromagnetic element, and has a cylindrical configuration. 7. The system of claim 5 further comprising a second piston coupled to reciprocate with the linear electric motor, and movable within a second pumping chamber in the housing. 8. The system of claim 2 wherein the cryogenic fluid storage vessel further includes each of a service port and a cold well formed therein, and wherein the pumping system is mounted within the fluid storage vessel adjacent to the service port and the system further comprises a second pumping system positioned at least partially within the cold well. 9. The system of claim 2 further comprising a pressure venting conduit coupled to the cooling jacket, and a pressure relief valve within the pressure venting conduit. 10. A machine system comprising: a machine; a storage vessel structured to contain a fluid; fluid coupling hardware including a fluid conduit for conveying the fluid in a gaseous or liquid form from the storage vessel to the machine; and a pumping system positioned within the storage vessel, and including a housing having a pumping inlet, a pumping outlet structured to fluidly connect with the fluid conduit, and a pumping chamber; the pumping system further including a pumping element movable within the pumping chamber to transition the fluid from the pumping inlet to the pumping outlet, and an electric drive structured to actuate the pumping element; and the pumping system further including a cooling jacket forming a heat exchange cavity about the electric drive for conveying the fluid in heat transference contact with the electric drive; wherein the cooling jacket is disposed separately from the pumping chamber and the heat exchange cavity is positioned fluidly between the pumping inlet and the pumping outlet, such that the cryogenic fluid transitioned from the pumping inlet and pumping chamber is conveyed through the heat exchange cavity to exchange heat with the electric drive prior to being transitioned to the pumping outlet. 11. The system of claim 10 wherein the electric drive includes a linear electric motor having a fixed electromagnetic element and a movable electromagnetic element. 12. The system of claim 10 wherein the machine includes an internal combustion engine. 13. The system of claim 10 wherein the fluid coupling hardware further includes a vaporizer for transitioning cryogenic fluid fuel stored in the storage vessel from a liquid state to a gaseous state for fueling the internal combustion engine. 14. The system of claim 13 wherein the fluid coupling hardware further includes an accumulator, coupled with the vaporizer and a second fluid conduit for conveying fluid from the accumulator to the machine. 15. The system of claim 10 wherein the pumping system includes a high-pressure pumping mechanism, and the pumping system further comprises a low-pressure pumping mechanism positioned within the storage vessel. 16. A method of operating a cryogenic fluid system comprising: operating a pumping system submerged in cryogenic fluid within a storage vessel to transition the cryogenic fluid from the storage vessel to a fluid conduit outside the storage vessel that is structured to supply the fluid to a machine, the pumping system including a pumping chamber in which the cryogenic fluid is pumped; conveying the cryogenic fluid transitioned by way of the operating of the pumping system so that the cryogenic fluid pumped in the pumping chamber is conveyed through a heat exchange cavity formed by a cooling jacket positioned about an electric drive of the pumping system, such that the cryogenic fluid exchanges heat with the electric drive, wherein the cooling jacket is disposed separately from the pumping chamber; and conveying the cryogenic fluid having exchanged heat with the electric drive out of the storage vessel. 17. The method of claim 16 wherein the operating of the pumping system further includes operating a linear motor of the pumping system to reciprocate a piston within the pumping chamber in the pump housing. 18. The method of claim 16 wherein the conveying of the cryogenic fluid further includes conveying the cryogenic fluid from the heat exchange cavity to the fluid conduit outside the storage vessel in isolation from contact with any bearing surfaces of the linear motor and any bearing surfaces of the piston.