System for cooling heat generating electrically active components for subsea applications

What is claimed is: 1. A subsea power module comprising: an outer pressure compensated vessel comprising a plurality of walls defining an interior chamber, the outer pressure compensated vessel configured to maintain a pressure within the interior chamber substantially the same as an ambient pressure outside the outer pressure compensated vessel; and one or more pressure vessels disposed within the interior chamber of the outer pressure compensated vessel, each of the one or more pressure vessels comprising a plurality of walls defining an air-filled interior chamber, each of the one or more pressure vessels coupled along a substantial length of at least one of the plurality of walls of a respective pressure vessel to an interior surface of at least one of the plurality of walls of the outer pressure compensated vessel defining the interior chamber of the outer pressure compensated vessel, each pressure vessel comprising: the air-filled interior chamber configured to maintain a substantially constant pressure within the interior chamber of the pressure vessel; and one or more heat generating electrical components disposed within the air-filled interior chamber of the pressure vessel, and an electrically isolative material disposed between and in direct contact with the at least one of the plurality of walls defining the interior chamber of the outer pressure compensated vessel and the at least one of the plurality of walls defining the air-filled interior chamber of the one or more pressure vessels, the electrically isolative material disposed so as to extend adjacently along a substantial length of the portion of the pressure vessel coupled to the interior surface of the at least one of the plurality of walls of the outer pressure compensated vessel, wherein the electrically isolative material includes electrical resistivity properties and thermal conductivity properties, wherein the subsea module is passively cooled by transferring heat from the one or more heat generating electrical components through the at least one of the plurality of walls defining the one or more pressure vessels, to a single fluid in the interior chamber and through the electrically isolative material, and the at least one of the plurality of walls defining the outer pressure compensated vessel to a seawater surrounding the outer pressure compensated vessel. 2. The subsea power module as claimed in claim 1 , wherein the electrically isolative material is a ceramic. 3. The subsea power module as claimed in claim 2 , wherein the electrically isolative material is at least one of aluminum nitride (AlN) or beryllium oxide (BeO). 4. The subsea power module as claimed in claim 1 , wherein the electrically isolative material extends along at least a portion of a length of the pressure vessel. 5. The subsea power module as claimed in claim 1 , wherein the single fluid is a dielectric oil that substantially fills the interior chamber of the outer pressure compensated vessel. 6. The subsea power module as claimed in claim 1 , wherein the outer pressure compensated vessel further comprises a pressure compensator. 7. The subsea power module as claimed in claim 1 , wherein each of the one or more pressure vessels is configured to transfer heat generated within the air-filled interior chamber of the pressure vessel to the single fluid surrounding the outer pressure compensated vessel. 8. The subsea power module as claimed in claim 7 , wherein each of the one or more pressure vessels is further configured to transfer a portion of the heat generated within the air-filled interior chamber of the pressure vessel to a dielectric oil that substantially fills the interior chamber of the outer pressure compensated vessel. 9. An offshore oil and gas installation assembly comprising: one or more passively cooled subsea power modules housing therein one or more heat generating electrical components, each passively cooled subsea power module comprising: an outer pressure compensated vessel comprising a plurality of walls defining an interior chamber, the outer pressure compensated vessel configured to maintain a pressure within the interior chamber substantially the same as an ambient pressure outside the outer pressure compensated vessel; one or more pressure vessels disposed within the interior chamber of the outer pressure compensated vessel, each of the one or more pressure vessels comprising a plurality of walls defining an air-filled interior chamber, each of the one or more pressure vessels coupled along a substantial length of at least one of the plurality of walls to an interior surface of at least one of the plurality of walls defining the interior chamber of the outer pressure compensated vessel, the one or more heat generating electrical components disposed within the one or more pressure vessels; and an electrically isolative material disposed between and in direct contact with the at least one of the plurality of walls defining the interior chamber of the outer pressure compensated vessel and the at least one of the plurality of walls defining the air-filled interior chamber of the one or more pressure vessels, the electrically isolative material disposed so as to extend adjacently along a substantial length of the portion of the pressure vessel coupled to the interior surface of the at least one of the plurality of walls of the outer pressure compensated vessel, wherein the electrically isolative material includes electrical resistivity properties and thermal conductivity properties and is at least one of aluminum nitride (AlN) or beryllium oxide (BeO), wherein each of the one or more heat generating electrical components is configured to transfer heat through the at least one of the plurality of walls defining the air-filled interior chamber of the one or more pressure vessels to a single fluid in the interior chamber and through, the electrically isolative material, and the at least one of the plurality of walls defining the outer pressure compensated vessel to a seawater surrounding the outer pressure compensated vessel so as to passively cool the one or more passively cooled subsea power modules.