Pressure vessel with barrier layer

The invention claimed is: 1. A pressure vessel comprising: a first container; a second container surrounding the first container and including a fluid port; a barrier space extending between the first container and the second container; a high heat transfer coefficient fluid contained within the barrier space, wherein the fluid is configured to transfer heat between the first container and an exterior environment outside of the second container; and a leak detection mechanism connected to the fluid port on the second container that is configured to detect a leak in the pressure vessel by detecting a change in the fluid pressure in the barrier space. 2. The pressure vessel of claim 1 , wherein the fluid contained in the barrier space is selected from the group consisting of liquid nickel, liquid sodium-potassium, liquid sodium, liquid lead-bismuth, thermal oil, molten sodium-potassium carbonate, molten sodium-potassium fluoride, pressurized nitrogen, pressurized helium, and combinations thereof. 3. The pressure vessel of claim 1 , wherein the leak detection mechanism is a pressure sensor. 4. The pressure vessel of claim 1 , wherein the leak detection mechanism is a relief valve. 5. The pressure vessel of claim 1 , wherein the leak detection mechanism is a relief valve with a pressure sensor. 6. The pressure vessel of claim 1 , wherein the leak detection mechanism is an accumulator. 7. The pressure vessel of claim 1 , wherein the leak detection mechanism is an accumulator and a position sensor. 8. The pressure vessel of claim 1 , wherein: the first container has a first inner surface and a first outer surface; the second container has a second inner surface and a second outer surface; and the barrier space extends from the first outer surface to the second inner surface. 9. The pressure vessel of claim 8 , and further comprising: a heat transfer element within the barrier space extending from the first outer surface to the second inner surface. 10. The pressure vessel of claim 9 , wherein the first container, the second container, and the heat transfer element are integrally formed. 11. The pressure vessel of claim 9 , wherein the heat transfer element is selected from the group consisting of a pin, a rib, a baffle, a fin, and combinations thereof. 12. A pressure vessel comprising: a first container having a first inner surface and a first outer surface; a second container surrounding the first container and having a second inner surface, a second outer surface, and a fluid port; a barrier space containing a fluid extending between the first outer surface of the first container and the second inner surface of the second container; and a leak detection mechanism connected to the fluid port on the second container that is configured to detect a leak in the pressure vessel by detecting a change in the fluid pressure in the barrier space; wherein the barrier space contains a heat transfer element connected to at least one of the first outer surface of the first container and the second inner surface of the second container and positioned in the pressure vessel to transfer heat between the first container and the second container. 13. The pressure vessel of claim 12 , wherein the first container, the second container, and the heat transfer element are integrally formed. 14. The pressure vessel of claim 12 , wherein the heat transfer element is selected from the group consisting of a pin, a rib, a baffle, a fin, and combinations thereof. 15. The pressure vessel of claim 12 , wherein the barrier space contains a fluid with a high heat transfer coefficient that is configured to transfer heat between the first container and an exterior environment outside of the second container. 16. The pressure vessel of claim 15 , wherein the fluid contained in the barrier space is selected from the group consisting of liquid nickel, liquid sodium-potassium, liquid sodium, liquid lead-bismuth, thermal oil, molten sodium-potassium carbonate, molten sodium-potassium fluoride, pressurized nitrogen, pressurized helium, and combinations thereof. 17. The pressure vessel of claim 12 , wherein the leak detection mechanism is a pressure sensor. 18. The pressure vessel of claim 12 , wherein the leak detection mechanism is a relief valve with a pressure sensor. 19. The pressure vessel of claim 12 , wherein the leak detection mechanism is an accumulator. 20. The pressure vessel of claim 12 , wherein the leak detection mechanism is an accumulator and a position sensor.