Power distribution system for off-shore natural resource platforms

The invention claimed is: 1. An off-shore medium voltage direct current (MVDC) power distribution system for supplying power to off-shore equipment, the MVDC power distribution system comprising: an off-shore MVDC power bus comprising a plurality of power bus segments, wherein each power bus segment is electrically connected to at least one other power bus segment via a circuit breaker, and wherein (i) at least one power bus segment of the plurality of power bus segments is electrically coupled to an off-shore renewable energy source configured to supply power to the off-shore MVDC power bus, wherein the renewable energy source includes an off-shore energy storage to reduce variance of power delivery from the renewable energy source, and (ii) at least one power bus segment of the plurality of power bus segments is electrically coupled to a local power distribution system of an off-shore drilling platform, wherein the local power distribution system is configured to receive power from the off-shore MVDC power bus and supply power to a local load of the drilling platform. 2. The off-shore MVDC power distribution system of claim 1 , wherein the off-shore MVDC power bus comprises an off-shore MVDC power bus ring network and each power bus segment is electrically connected to only two other power bus segments via corresponding circuit breakers. 3. The off-shore MVDC power distribution system of claim 1 , wherein the off-shore MVDC power bus comprises an off-shore MVDC power bus mesh network. 4. The off-shore MVDC power distribution system of claim 1 , wherein the off-shore renewable energy source comprises one or more wind turbines configured to supply power to the off-shore MVDC power bus via the corresponding at least one power bus segment. 5. The off-shore MVDC power distribution system of claim 1 , wherein the at least one power bus segment electrically coupled to the off-shore renewable energy source comprises a power bus segment of the plurality of power bus segments electrically connected to the off-shore renewable energy source via a corresponding circuit breaker. 6. The off-shore MVDC power distribution system of claim 1 , further comprising a plurality of off-shore renewable energy sources, wherein each off-shore renewable energy source is electrically connected to a different power bus segment of the plurality of power bus segments via a corresponding circuit breaker. 7. The off-shore MVDC power distribution system of claim 1 , wherein the at least one power bus segment electrically coupled to the local power distribution system comprises a power bus segment of the plurality of power bus segments electrically connected to the local power distribution system via a corresponding circuit breaker. 8. The off-shore MVDC power distribution system of claim 1 , wherein the local load comprises an alternating current (AC) load and the local power distribution system includes a direct current-to-alternating current (DC-AC) inverter configured to generate an AC power to the AC load based on a DC power supplied by the off-shore MVDC power bus. 9. The off-shore MVDC power distribution system of claim 1 , wherein the local power distribution system includes a local power generation system to supply power to the local power distribution system, wherein the local power generation system comprises an engine-driven diesel or gas generator. 10. The off-shore MVDC power distribution system of claim 1 , further comprising a plurality of drilling platforms, wherein each drilling platform includes a local power distribution system electrically connected to a different power bus segment of the plurality of power bus segments via a corresponding circuit breaker. 11. The off-shore MVDC power distribution system of claim 10 , wherein the local power distribution system of each drilling platform includes a local energy management system configured to control operation of the corresponding local power distribution system. 12. The off-shore MVDC power distribution system of claim 11 , wherein each local energy management system controls the amount of power extracted from the off-shore MVDC power bus by the local power distribution system and the amount of power supplied by the corresponding power bus segment to other power bus segments of the off-shore MVDC power bus. 13. The off-shore MVDC power distribution system of claim 1 , wherein the local power distribution system is electrically connected to the corresponding power bus segment via a corresponding circuit breaker and includes a local energy management system configured to control operation of the local power distribution system, wherein the off-shore renewable energy source includes a controller configured to control operation of the renewable energy source, and wherein the local energy management system is configured to communicate with the controller to control delivery of the power from the off-shore renewable energy source to the off-shore MVDC power bus. 14. The off-shore MVDC power distribution system of claim 1 , further comprising an on-shore supply link electrically coupled to a power bus segment of the plurality of power bus segments, wherein the on-shore supply link is configured to provide power to the off-shore MVDC power bus from an on-shore power source. 15. The off-shore MVDC power distribution system of claim 14 , wherein the on-shore supply link comprises a MVDC power link. 16. The off-shore MVDC power distribution system of claim 14 , wherein the on-shore supply link comprises a high voltage alternating current (HVAC) power link. 17. The off-shore MVDC power distribution system of claim 14 , wherein the on-shore supply link comprises a high voltage direct current (HVDC) power link. 18. An off-shore medium voltage direct current (MVDC) power distribution system for supplying power to off-shore equipment, the MVDC power distribution system comprising: an off-shore MVDC power bus comprising a plurality of power bus segments, wherein each power bus segment is electrically connected to at least one other power bus segment via a circuit breaker; a plurality of off-shore renewable energy sources, wherein each off-shore renewable energy source is electrically connected to a different power bus segment of the plurality of power bus segments via a corresponding circuit breaker and wherein at least one renewable energy source includes an off-shore energy storage to reduce variance of power delivery from the corresponding renewable energy source; a plurality of off-shore drilling platforms, wherein each off-shore drilling platform includes a local power distribution system electrically connected to a different power bus segment of the plurality of power bus segments via a corresponding circuit breaker; and an on-shore supply link electrically connected to a power bus segment of the plurality of power bus segments via a corresponding circuit breaker, wherein the on-shore supply link is configured to provide power to the off-shore MVDC power bus from an on-shore power source. 19. The off-shore MVDC power distribution system of claim 18 , wherein the off-shore MVDC power bus comprises an off-shore MVDC power bus ring network and each power bus segment is electrically connected to only two other power bus segments via corresponding circuit breakers. 20. The off-shore MVDC power distribution system of claim 18 , wherein the off-shore MVDC power bus comprises an off-shore MVDC power bus mesh network. 21. The off-shore MVDC power distribution system of claim 18 , wherein