Fuel head assembly with replaceable wear components

What is claimed is: 1. A fuel head assembly for directing pulverized solid fuel entrained in a gas stream into a furnace, the fuel head assembly comprising: a casing having an inlet port flange at one end of the casing, an outlet port flange at another end of the casing, and an elbow opening disposed in an outer radial portion of the casing, wherein the elbow opening extends between the inlet port flange and the outlet port flange, and wherein the casing includes an outwardly extending casing flange disposed about the elbow opening; a curved back cover including an outwardly extending cover flange in parallel contact with and removably attachable to the outwardly extending casing flange to form an arcuate conduit having an inner wall; a wear-resistant casing liner being tubular and disposed within the arcuate conduit to form a tubular inner wall extending circumferentially about the inner wall of the conduit and fluidly coupling the inlet port flange and the outlet port flange, the wear-resistant casing liner including an upper casing liner section, a middle casing liner section and a lower casing liner section being insertable into and replaceable through the elbow opening of the casing, wherein each of the upper casing liner section, the middle casing liner section and the lower casing liner section includes at least one of a tab and a complementary notch to interconnect the upper casing liner section, the middle casing liner section and the middle casing liner section together. 2. The fuel head assembly of claim 1 , wherein the middle casing liner section snugly fits between the upper casing liner section and the lower casing liner section. 3. A fuel head assembly for directing pulverized solid fuel entrained in a gas stream into a furnace, the fuel head assembly comprising: an elbow-shaped casing having an inlet port flange at one end of the casing, an outlet port flange at another end of the casing, and an elbow opening disposed in an outer radial portion of the casing, wherein the elbow opening extends between and spaced from the inlet port flange and the outlet port flange; a curved back cover including an outwardly extending cover flange in contact with and removably attachable to the outwardly extending casing flange to form an arcuate conduit having an inner wall; and a tubular wear-resistant casing liner disposed within the arcuate conduit to form a tubular inner wall extending circumferentially about the inner wall of the conduit and fluidly coupling the inlet port flange and the outlet port flange, the wear-resistant casing liner comprising an upper casing liner section, a lower casing liner section, and a middle casing liner section, wherein each of the upper casing liner section, the middle casing liner section and the lower casing liner section comprises at least one of a tab and a complementary notch to interconnect the upper casing liner section, the middle casing liner section and the middle casing liner section together. 4. The fuel head assembly of claim 3 , wherein the upper casing liner, the lower casing liner, and the middle casing liner are each configured to be partially exposed in the elbow opening and removable when the curved back cover is removed. 5. The fuel head assembly of claim 4 , wherein the wear-resistant liner includes at least one vane disposed therein extending at least partially between the inlet port and the outlet port and within each of the upper casing liner section, the middle casing liner section and the lower casing liner. 6. The fuel head assembly of claim 4 , further comprising: an aperture passing through the casing and the wear-resistant casing liner into the conduit to allow inspection of surfaces inside the wear-resistant casing liner. 7. The fuel head assembly of claim 4 , wherein the middle casing liner section is wedge-shaped. 8. The fuel head assembly of claim 7 , wherein the upper and lower casing liner sections are shaped such that the meeting of the upper and lower casing liner sections and the middle casing liner section is flush. 9. The fuel head assembly of claim 4 , wherein the upper casing liner section, the middle casing liner section and the lower casing liner section are interconnected. 10. The fuel head assembly of claim 9 wherein each of the upper casing liner section, the middle casing liner section and the lower casing liner section includes at least one of a tab and a complementary notch to interconnect the upper casing liner section, the middle casing liner section and the middle casing liner section together. 11. The fuel head assembly of claim 10 , wherein middle casing liner section snugly fits between the upper casing liner section and the lower casing liner section. 12. The fuel head assembly of claim 4 , wherein the wear-resistant liner includes at least one vane disposed therein extending at least partially between the inlet port flange and the outlet port flange. 13. The fuel head assembly of claim 12 , wherein the vane is further curved in another plane that passes through the arcuate conduit and having a transverse radius of curvature. 14. The fuel head assembly of claim 13 , wherein the transverse radius of curvature of vane is approximately equal to that of the conduit. 15. The fuel head assembly of claim 12 , wherein the vane includes at least two vanes, which are concentric in an arcuate direction. 16. The fuel head assembly of claim 12 , wherein the vane has a trailing edge angled downward between 0 to 13 degrees relative to an adjacent inner surface of the wear-resistant casing liner. 17. The fuel head assembly of claim 12 , wherein the vane comprises a leading edge substantially parallel to an adjacent inner surface of the wear-resistant casing liner. 18. The fuel head assembly of claim 12 , wherein the vane is fixed with respect to the casing to provide additional strength and minimize unwanted movement of the vane. 19. The fuel head assembly of claim 4 , wherein the wear-resistant liner having an outer surface that abuts an inner surface of the conduit. 20. The fuel head assembly of claim 4 , wherein an outer diameter of the wear-resistant liner is substantially the same as an inner diameter of the conduit.