Patent Number: 
Section: claims

1. A vol-oxidizer for spent nuclear fuel comprising:a reactor module in which the spent nuclear fuel is placed and oxidized;a heating module to heat the reactor module to a high temperature;a utility module to control an inner state of the reactor module, being connected with the reactor module;a support module to support the heating module and the reactor module;a drive module to supply a driving force for transferring the spent nuclear fuel within the reactor module;a valve module to control discharge of the spent nuclear fuel being oxidized in the reactor module; anda collecting container module to collect the spent nuclear fuel being oxidized and discharged from the reactor module,a guide module to guide movement of the heating module,wherein the respective modules are assembled and disassembled with respect to one another. 2. The vol-oxidizer of claim 1, whereinthe heating module comprises a first heating body and a second heating body connectable to both sides of the reactor module, andthe first heating body and the second heating body are mounted to the support module in a sliding manner. 3. The vol-oxidizer of claim 1, further comprising an air cylinder module connected to one side of the heating module to supply a force for separating and connecting the heating module. 4. The vol-oxidizer of claim 1, wherein the heating module comprises a handling tool connector to which a handling tool for transferring the heating module is connected. 5. The vol-oxidizer of claim 1, wherein the reactor module comprises:a body unit to mount an oxidation container adapted to receive the spent nuclear fuel; andan introduction unit to supply a path for introducing the spent nuclear fuel into the oxidation container from an outside. 6. The vol-oxidizer of claim 5, wherein the utility module comprises:a decompression unit to decompress the reactor module to a vacuum state so that the reactor module performs a high-temperature oxidization process under vacuum;a degassing unit to remove gas generated from the spent nuclear fuel during the high-temperature oxidization process;an oxidizing agent supply unit to supply a path for feeding of an oxidizing agent into the oxidation container; andan introduction unit cover to selectively open and close the introduction unit of the reactor module. 7. The vol-oxidizer of claim 1, wherein the drive module comprises:a rotation shaft configured to pass through the reactor module;a motor to supply a driving force to the rotation shaft;a power transmitter to transmit the driving force of the motor to the rotation shaft; anda transfer unit to transfer the spent nuclear fuel into the oxidation container. 8. The vol-oxidizer of claim 7, further comprising a motor housing to receive the motor,wherein the motor comprises a wheel unit configured to be connected with the motor housing in a sliding manner, andthe motor housing is sloped down toward the rotation shaft. 9. The vol-oxidizer of claim 8, wherein the motor comprises a stopper to prevent the motor from sliding away from the motor housing by a predetermined distance. 10. The vol-oxidizer of claim 1, wherein the support module comprises:a base unit to constitute a bottom surface of the support module; anda main support unit configured to be rotatably connected to the base unit. 11. The vol-oxidizer of claim 1, wherein the heating module, the utility module, the drive module, the valve module, and the collecting container module are made of SUS304 and ceramic.