Inactivation treatment apparatus

The invention claimed is: 1. An inactivation treatment apparatus configured to inactivate a carbide by using a treatment gas containing oxygen, comprising: a kiln main body provided rotatably and allowing the carbide to pass inside of the kiln main body from a base end side to a distal end side; a cooling tube provided in such a way as to be rotatable in conjunction with the kiln main body and to extend in a longitudinal direction of the kiln main body, and causing cooling water to flow inside of the cooling tube; and a treatment gas supply tube provided in such a way as to be rotatable in conjunction with the kiln main body and to extend in the longitudinal direction of the kiln main body, and configured to supply the treatment gas into the kiln main body, wherein the cooling tube and the treatment gas supply tube are disposed in such a way as to run through a carbide layer formed by depositing the carbide inside the kiln main body when the kiln main body is rotated, the treatment gas supply tube is disposed adjacent to the cooling tube, the treatment gas supply tube includes a nozzle hole configured to supply the treatment gas into the kiln main body, the nozzle hole is disposed opposite to the cooling tube, the treatment gas supply tube includes guiding means for guiding a direction of supply of the treatment gas into the kiln main body, and the guiding means includes: two guide plates disposed adjacent to the treatment gas supply tube and fixed to the cooling tube; and a current plate fixed to the guide plates, so that the guiding means is configured to bring the treatment gas discharged from the nozzle hole of the treatment gas supply tube into contact with the cooling tube and then to eject the treatment gas to the carbide. 2. The inactivation treatment apparatus according to claim 1 , wherein the guiding means is provided such that the direction of supply of the treatment gas is set in a range from 0 degrees to 90 degrees inclusive with respect to a line in a radial direction running through a center axis of the kiln main body in terms of a reverse rotational direction of the kiln main body. 3. The inactivation treatment apparatus according to claim 1 , wherein the cooling tubes are disposed on multiple layers in a radial direction of the kiln main body, and the treatment gas supply tube is provided to the cooling tube disposed on the outermost layer. 4. The inactivation treatment apparatus according to claim 1 , wherein a supply flow velocity of the treatment gas into the kiln main body is adjusted in a range from 0.05 m/sec to 3 m/sec. 5. The inactivation treatment apparatus according to claim 1 , wherein an amount of supply of the treatment gas into the kiln main body is adjusted equal to or above 0.025 (NL-O 2 /min/kg—the carbide). 6. The inactivation treatment apparatus according to claim 1 , wherein the nozzle hole is provided on the distal end side of the kiln main body and provided in a region equal to or above 5% of a total length of the kiln main body. 7. The inactivation treatment apparatus according to claim 1 , wherein the carbide is coal.