Patent Number: 
Section: claims

1. A self-diagnosis and accident-handling unmanned nuclear reactor, comprising:a nuclear reactor driving system configured to include a nuclear reactor vessel accommodating a nuclear reactor core and a steam generator to which a steam pipe and a water supply pipe are connected; anda nuclear reactor safety system comprising:a first containment vessel that accommodates gas and the nuclear reactor driving system in a first space therein;a second containment vessel that is disposed adjacent to the first containment vessel and includes a horizontal barrier provided therein to divide an inner space into a lower second space and an upper third space so as to accommodate coolant in the second space;a containment vessel through pipe that has a first end disposed in the first space and a second end communicating with the second space and includes a containment vessel through valve;a coolant injection pipe that has a first end disposed in the third space and a second end communicating with the first space and includes a coolant injection valve; anda residual heat removing device positioned in the third space and connected to the nuclear reactor driving system to transfer heat released from the nuclear reactor driving system to the coolant and transfer the heat absorbed into the coolant to an external heat sink outside of the nuclear reactor,wherein the residual heat removing device comprises:a heat exchange portion that transfers heat by a two-phase heat transfer mechanism using the coolant supplied by a flow path connected to the second space, the heat exchange portion comprising:a primary heat exchanger connected to the nuclear reactor driving system to distribute the coolant in the nuclear reactor driving system to radiate heat;a secondary heat exchanger positioned adjacent to the primary heat exchanger to distribute the coolant for absorbing residual heat to absorb the heat; anda coolant spray pipe connected to the second space to spray the coolant to the primary heat exchanger;a heat exchange vessel comprising an airtight container portion that has the coolant accommodated therein and the heat exchange portion accommodated in an upper part thereof, the heat exchange vessel including the flow path extending from a lower part of the heat exchange vessel to the second space opened to distribute the coolant; anda heat exchange vessel outer cylinder surrounding the airtight container portion to secure a water level of the coolant at which a lower end of the flow path is immersed in the coolant to accommodate and distribute the coolant,wherein a space having a saturated steam pressure is formed at the upper part of the heat exchange vessel where the heat exchange portion is positioned, the saturated steam pressure caused by coolant steam generated by the coolant being boiled by the primary heat exchanger of the heat exchange portion; andwherein the coolant supplied by the coolant spray pipe on the space having the saturated steam pressure is sprayed to the primary heat exchanger and the secondary heat exchanger to cause heat transfer via the two-phase heat transfer mechanism. 2. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor safety system further includes an auxiliary water supply pipe that has a first end communicating with a lower part of the second space and a second end communicating with the steam generator and supplies the coolant in the second space to the steam generator if a pressure in the second space is higher than that in the steam generator and includes an auxiliary water supply valve. 3. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 2, wherein the nuclear reactor safety system further includes an auxiliary steam release valve that is provided on an upper part of the primary heat exchanger and is opened simultaneously with the opening of the auxiliary water supply valve to supply steam to the heat exchange vessel so that the steam is auxiliarily supplied to the space having the saturated steam pressure within the heat exchange vessel. 4. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor safety system further includes a steam release pipe that has one end communicating with an upper part of the first space and the other end communicating with an upper part of the third space to distribute the steam in the first space to the third space to generate a pressure in the third space and includes a steam release valve. 5. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor safety system further includes a steam bypass pipe that has a first end connected to a channel through which the coolant is introduced into the primary heat exchanger from the steam generator within the nuclear reactor driving system and a second end connected to the containment vessel through pipe to bypass the steam in the steam generator through the containment vessel through pipe to distribute the steam to the second space so that a pressure in the second space is generated, and includes a steam bypass valve. 6. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the heat exchange vessel outer cylinder has a shape corresponding to the heat exchange vessel and is formed and disposed to be larger than the heat exchange vessel so that an inner wall of the heat exchange vessel outer cylinder and an outer wall of the heat exchange vessel are spaced apart from each other at a predetermined interval, and wherein the heat exchange vessel outer cylinder has an upper part opened to the third space and a lower part closed to distribute the coolant to the upper part thereof. 7. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 6, wherein the heat exchange vessel outer cylinder has a heat exchange vessel outer cylinder valve provided at a lower part thereof to release the coolant filled in the heat exchange vessel outer cylinder so that the heat exchange vessel outer cylinder serves as a siphon. 8. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor safety system further includes a containment vessel depressurization pipe that has a first end communicating with a lower part of the first space and a second end communicating with the coolant injection pipe to distribute the steam in the first space to the coolant injection pipe so that the pressure in the first space is depressurized, and includes a containment vessel depressurization valve. 9. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor driving system further includes a coolant supplement pipe that is connected to the nuclear reactor vessel to be supplied with the coolant from the outside to supplement the coolant into the nuclear reactor vessel. 10. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor driving system further includes a first circulation valve disposed inside the heat exchange vessel and a second circulation valve disposed outside the heat exchange vessel that are provided on a channel of a lower part of the primary heat exchanger to further supply the coolant in the third space to the steam generator. 11. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor driving system further includes a nuclear reactor vessel safety valve that is provided in the nuclear reactor vessel to release the steam in the nuclear reactor vessel to the first space or to the containment vessel through a pipe. 12. The self-diagnosis and accident-handling unmanned nuclear reactor of claim 1, wherein the nuclear reactor is formed so that the first containment vessel and the second containment vessel are disposed under a surface of water.