Expansion joint fitting for flammable liquid

What is claimed is: 1. An expansion joint fitting for conveying liquid, the expansion joint fitting having first and second longitudinal ends and a longitudinal axis extending between the opposite first and second longitudinal ends, the expansion joint fitting comprising: a radially inner bellows defining a liquid-conveying passage for conveying liquid between the first and second longitudinal ends of the expansion joint fitting, wherein the radially inner bellows includes an annular corrugated body and opposite first and second longitudinal end portions secured to the respective first and second annular coupling flanges, wherein each of the first and second longitudinal end portions includes an annular radial segment secured to an axial end face of a corresponding one of the first and second annular coupling flange; a radially outer bellows disposed radially outward from and extending around the radially inner bellows, wherein an annular plenum is defined between the radially inner bellows and the radially outer bellows; a first annular coupling flange at the first longitudinal end of the expansion joint fitting, and a second annular coupling flange at the second longitudinal end of the expansion joint fitting, wherein the radially inner and radially outer bellows are coupled to the first and second annular coupling flanges; a first annular mounting bracket extending outward from the first annular coupling flange toward the second annular coupling flange, wherein the first annular mounting bracket extends around a portion of the radially inner bellows; a second annular mounting bracket extending outward from the second annular coupling flange toward the first annular coupling flange, wherein the second annular mounting bracket extends around a portion of the radially inner bellows, wherein the radially outer bellows is secured to and extends between the first and second annular mounting brackets; an inlet port secured to the first annular mounting bracket and in fluid communication with the annular plenum; and an outlet port secured to the second annular mounting bracket and in fluid communication with the annular plenum. 2. The expansion joint fitting set forth in claim 1 , further comprising a source of purge gas fluidly connected to the inlet port, wherein the source of purge gas is configured to deliver purge gas into the annular plenum through the inlet port. 3. The expansion joint fitting set forth in claim 2 , further comprising a fluid detector fluidly connected to the outlet port to receive purge gas exiting the outlet port, wherein the fluid detector is configured to detect fluid entrained in the purge gas that has leaked into the annular plenum. 4. The expansion joint fitting set forth in claim 3 , wherein the radially inner bellows comprises one or more of a nickel alloy and a reactive metal. 5. The expansion joint fitting set forth in claim 3 , wherein the radially inner bellows comprises a plurality of layers, wherein an innermost layer of the radially inner bellow comprises one or more of titanium, zirconium, tantalum. 6. The expansion joint fitting set forth in claim 5 , wherein the radially outer bellows comprises one or more layers of a nickel alloy. 7. The expansion joint fitting set forth in claim 1 , wherein the radially inner bellows comprises one or more of a nickel alloy and a reactive metal. 8. The expansion joint fitting set forth in claim 7 , wherein the radially inner bellows comprises a plurality of layers, wherein an innermost layer of the radially inner bellow comprises one or more of titanium, zirconium, tantalum. 9. The expansion joint fitting set forth in claim 8 , wherein other layers of the plurality of layers of the radially inner bellows comprises a nickel alloy. 10. The expansion joint fitting set forth in claim 8 , wherein the radially outer bellows comprises a nickel alloy. 11. The expansion joint fitting set forth in claim 10 , wherein the radially outer bellows comprises a plurality of layers, wherein each of the plurality of layers comprises a nickel alloy. 12. A flange joint assembly for conveying liquid, the flange joint assembly comprising: an expansion joint fitting for conveying liquid, the expansion joint fitting having first and second longitudinal ends and a longitudinal axis extending between the opposite first and second longitudinal ends, the expansion joint fitting comprising: a bellows defining a liquid-conveying passage for conveying liquid between the first and second longitudinal ends of the expansion joint fitting; a first annular coupling flange at the first longitudinal end of the expansion joint fitting, and a second annular coupling flange at the second longitudinal end of the expansion joint fitting, wherein the bellows is coupled to the first and second annular coupling flanges, wherein the bellows includes an annular corrugated body and opposite first and second longitudinal end portions secured to the respective first and second annular coupling flanges, wherein each of the first and second longitudinal end portions includes an annular radial segment secured to an axial end face of a corresponding one of the first and second annular coupling flanges, the annular radial segment defining an annular gasket abutment face; and an annular gasket including an annular gasket layer generally opposing and seated on the annular gasket abutment face, wherein the annular gasket layer includes a radially inner annular gasket segment and a radially outer annular gasket segment surrounding the radially inner annular gasket segment, wherein the radially inner annular gasket segment comprises a first material suitable for forming a liquid-tight seal with the annular gasket abutment face, wherein the radially outer annular gasket segment comprises a second material suitable for forming a fire-rated seal with the annular gasket abutment face; and wherein the annular gasket layer comprises two of the annular gasket layers generally opposing one another. 13. The flange joint assembly set forth in claim 12 , wherein the annular gasket further includes an annular substrate sandwiched between the two annular gasket layers. 14. The flange joint assembly set forth in claim 13 , wherein the annular substrate is corrugated radially. 15. The flange joint assembly set forth in claim 12 , wherein the radially inner annular gasket segment comprises a fluoropolymer. 16. The flange joint assembly set forth in claim 15 , wherein the radially inner annular gasket segment comprises expanded polytetrafluoroethylene (ePTFE).