Hydrocarbon film protected refractory carbide components and use

What is claimed: 1. A turbine power generation system, comprising: a plurality of hot gas path components comprising a combustor and a turbine, said combustor configured to combust a mixture of air with a fuel to produce an exhaust gas stream, and said turbine configured to convert energy of said exhaust stream into useful mechanical energy; and wherein said plurality of hot gas path components is thermally coupled to a hot gas path; and a first conduit configured to deliver a high carbon activity gas to at least one hot gas path component of said plurality of hot gas path components, wherein the at least one hot gas path component comprises a plurality of film holes disposed to cover at least a portion of the at least one hot gas component with a layer of the high carbon activity gas, and wherein delivering the high carbon activity gas comprises introducing the high carbon activity gas via the plurality of film holes; wherein a refractory carbide comprises at least a portion of said plurality of hot gas path components. 2. The turbine power generation system according to claim 1 , further comprising a valve configured to selectively control an amount of said high carbon activity gas delivered to said at least one hot gas path component of said plurality of hot gas path components. 3. The turbine power generation system according to claim 1 , wherein said combustor comprises a Coanda nozzle. 4. The turbine power generation system according to claim 1 , further comprising at least one of: a compressor configured to compress air; a generator configured to convert mechanical energy produced by said turbine into electrical energy; and a shaft linking said compressor, said turbine, and said generator to allow mechanical energy produced by said turbine to be utilized by said generator and said compressor. 5. The turbine power generation system according to claim 1 , wherein said refractory carbide comprises a ceramic matrix composite. 6. The turbine power generation system according to claim 1 , wherein the layer of the high carbon activity gas is on an exterior surface or an interior surface of the at least one hot gas path component. 7. The turbine power generation system according to claim 1 , wherein the refractory carbide is selected from the group consisting of: TiC, ZrC, HfC, TaC, SiC, NbC and B 4 C. 8. The turbine power generation system according to claim 1 , wherein the high carbon activity gas comprises fluid hydrocarbon fuel. 9. The turbine power generation system according to claim 8 , wherein the fluid hydrocarbon fuel is selected from the group consisting of: methane, naphtha, butane, gasoline, jet fuel, biofuel and natural gas. 10. The turbine power generation system according to claim 1 , wherein the high carbon activity gas is delivered to the turbine. 11. The turbine power generation system according to claim 1 , wherein the high carbon activity gas is delivered to the combustor. 12. A cooling system for a hot gas path component, said cooling system comprising: the hot gas path component comprising a plurality of film holes disposed to cover at least a portion of the hot gas path component with a layer of a high carbon activity gas; and a first conduit configured to deliver the high carbon activity gas to said hot gas path component by introducing the high carbon activity gas via the plurality of film holes, wherein said high carbon activity gas forms a film of cover gas on a surface of said hot gas path component, wherein said hot gas path component comprises a refractory carbide. 13. The cooling system according to claim 12 , wherein said hot gas path component is selected from a combustor, a vane, a blade, a rocket, a ramjet, a scram jet and a shroud. 14. The cooling system according to claim 13 , wherein said hot gas path component is a combustor and the combuster comprises a Coanda nozzle. 15. The cooling system according to claim 12 , wherein the refractory carbide comprises a ceramic matrix composite. 16. The cooling system according to claim 12 , wherein the refractory carbide is selected from the group consisting of: TiC, ZrC, HfC, TaC, SiC, NbC and B 4 C. 17. The cooling system according to claim 12 , wherein the high carbon activity gas comprises fluid hydrocarbon fuel. 18. The cooling system according to claim 17 , wherein the fluid hydrocarbon fuel is selected from the group consisting of: methane, naphtha, butane, gasoline, jet fuel, biofuel and natural gas. 19. The cooling system according to claim 12 , wherein the high carbon activity gas is mixed with air.