Subsea transformer with seawater high resistance ground

What is claimed is: 1. A subsea transformer protected by high resistance grounding comprising: a primary set of coil windings; a secondary set of coil winding; a subsea transformer tank defined by a tank wall and housing said primary and secondary sets of coil windings; and a seawater-based high resistance grounding device positioned outside of said transformer tank, comprising: a first electrode electrically connected to a neutral node of said secondary set of coil windings; a second electrode electrically connected to a ground; and a volume of seawater which provides an electrical resistance electrical path between said first and second electrodes. 2. The subsea transformer according to claim 1 wherein said seawater-based resistance grounding device further comprises an insulated pipe having a first end where said first electrode is positioned, a second end where said second electrode is positioned, and an opening allowing seawater to enter said insulated pipe, said insulated pipe between the first and second electrodes defining said volume of seawater. 3. The subsea transformer according to claim 1 wherein said insulated pipe is open on both first and second ends allowing seawater to flow through said insulated pipe. 4. The subsea transformer according to claim 1 wherein said seawater-based high resistance grounding device further comprises: an insulated pipe having a first end, a second end, an intermediate location along said insulated pipe, and an opening allowing seawater to enter said insulated pipe, said first electrode being positioned at said intermediate location, said second electrode being positioned at said first end; and a third electrode electrically connected to said ground and positioned at said second end, said insulated pipe between said first and second electrodes defining said volume of seawater and between said first and third electrodes defining a second volume of seawater which provides an electrical resistance path between said first and third electrodes and is electrically in parallel to said volume of seawater. 5. The subsea transformer according to claim 4 wherein said insulated pipe is open on both first and second ends allowing seawater to flow through said insulated pipe. 6. The subsea transformer according to claim 5 wherein said insulated pipe is mounted to said transformer tank vertically such that heated seawater can exit through an upper end and cool seawater can enter through a lower end. 7. The subsea transformer according to claim 1 wherein said first and second electrodes are electrically connected to said neutral node and said ground, respectively, via low-resistance paths. 8. The subsea transformer according to claim 1 wherein the transformer is a step-down or a step-up transformer. 9. The subsea transformer according to claim 1 wherein said seawater-based high resistance grounding device has a resistance of at least 1000 ohms. 10. The subsea transformer according to claim 1 wherein said ground is said tank wall. 11. The subsea transformer according to claim 1 further comprising a transformer oil positioned within said tank that bathes said primary and secondary sets of coil windings, wherein said tank wall is suitable for deployment in a subsea environment wherein an outer surface of the tank wall is exposed to seawater and an inner surface of the tank wall is exposed to said transformer oil. 12. The subsea transformer according to claim 1 wherein said transformer is configured to supply power to one or more subsea components used for processing hydrocarbon fluids produced from a subterranean rock formation. 13. The subsea transformer according to claim 12 wherein said one or more subsea components are motors configured for driving one or more subsea pumps, compressors or separators.