Tapered plug burner cleaning ports

What is claimed is: 1. A method comprising: removing a tapered plug from a seat in an exterior portion of a burner to expose an access passage from a position outside a wall of a metal-melting furnace; pushing a rod from outside the burner and outside the metal-melting furnace, in through the access passage exposed by removing the tapered plug, and toward or through an air passage extending between an interior of a body of the burner and an inside of the metal-melting furnace, wherein the air passage and the access passage are separate from a fuel passage of the burner; and dislodging, from the air passage and in response to movement of the rod toward or through the air passage, build-up of metal and/or oxide splashed from the metal-melting furnace and solidified in the air passage. 2. The method of claim 1 , wherein removing the tapered plug comprises pivoting a hinged linkage supporting the tapered plug and pivoting the hinged linkage away from the exterior portion of the burner. 3. The method of claim 1 , further comprising: removing the rod from the access passage; and sealing the access passage by inserting the tapered plug into the seat in the exterior portion of the burner. 4. The method of claim 3 , wherein sealing the access passage further comprises biasing the tapered plug into the seat in the exterior portion of the burner. 5. The method of claim 3 , wherein sealing the access passage further comprises pivoting a hinged linkage supporting the tapered plug and pivoting the hinged linkage toward the exterior portion of the burner. 6. The method of claim 5 , further comprising releasably securing the hinged linkage relative to the exterior portion of the burner. 7. A system comprising: a top charge furnace comprising a wall bounding an inside of the top charge furnace; a burner extending through the wall and comprising a body defining: a front face within the inside of the top charge furnace; a rear face outside of the inside of the top charge furnace; an air passage through the front face; a fuel passage separate from the air passage and defined through the front face; and an access passage separate from the fuel passage, defined through the rear face, and aligned with the air passage to permit a structure to be passed through the burner from outside the top charge furnace and through the front face to clean out build-up of solidified metal and/or oxide from the air passage; and a tapered plug releasably received in the rear face and in sealing engagement with the access passage to seal off the access passage during operation of the burner. 8. The system of claim 7 , wherein the top charge furnace comprises a fill line corresponding to a capacity limit for molten metal within the top charge furnace, and wherein the front face of the burner is positioned above the fill line. 9. The system of claim 7 , wherein the tapered plug is conical in shape. 10. The system of claim 7 , wherein the tapered plug comprises: a mandrel formed of refractory material; and a liner disposed over the mandrel and formed of an inorganic fiber. 11. The system of claim 7 , wherein the body further comprises: a rear plate defining the rear face and comprising a layer of refractory material and a layer of metal material disposed outwardly from the refractory material, wherein the access passage is defined through the layer of metal material and the layer of refractory material. 12. The system of claim 11 , further comprising a frusto-conical metal insert extending inward from the layer of metal material and into the layer of refractory material. 13. A burner assembly comprising: a body defining a chamber having a front face and a rear face; an air passage defined through the front face; a fuel passage separate from the air passage and defined through the front face; an access passage separate from the fuel passage, defined through the rear face, and aligned with the air passage; a tapered seat forming an entrance to the access passage; and a tapered plug moveable between a sealing configuration and a cleaning configuration, the tapered plug in the sealing configuration being received in the tapered seat to seal the access passage during operation of the burner assembly, and the tapered plug in the cleaning configuration being removed from the tapered seat to expose the access passage and permit insertion of a rigid structure through the access passage and the front face to dislodge any blockage from the air passage. 14. The burner assembly of claim 13 , further comprising a biasing mechanism for biasing the tapered plug into the sealing configuration. 15. The burner assembly of claim 13 , further comprising a hinged linkage supporting the tapered plug. 16. The burner assembly of claim 15 , wherein the hinged linkage comprises: a first arm pivotable relative to the body; and a second arm rotatable relative to the first arm, wherein the tapered plug is mounted on the second arm. 17. The burner assembly of claim 16 , further comprising a locking member pivotable to the body and sized to be received by the hinged linkage for securing the hinged linkage in a position retaining the tapered plug in the sealing configuration. 18. The burner assembly of claim 17 , wherein the locking member is coupled with a locking wheel rotatable to apply a compressive force along the locking member for securing the hinged linkage. 19. The burner assembly of claim 16 , wherein the tapered plug is a first tapered plug, and wherein the second arm supports a second tapered plug for releasable sealing engagement with a second access passage. 20. The burner assembly of claim 19 , wherein the hinged linkage is securable to the body to secure both the first tapered plug and the second tapered plug relative to the body.