Patent Number: 
Section: claims

1. A passive safety system, comprising:a passive containment cooling system;a heat exchangerformed at a space inside a hermetic containment, andallowing heat exchange of internal atmosphere of the containment introduced therein,such that temperature of the internal atmosphere is reduced,when an accident occurs in a reactor system disposed within the containment;a thermoelectric element disposed within the heat exchanger and configured to produce electricitydue to a temperature difference between the internal atmosphere and a cooling fluid, heat-exchanged with the internal atmosphere,when the cooling fluid performs the heat exchange with the internal atmosphere within the heat exchanger; anda fan unitconnected to the thermoelectric element via an electricity path to receive the electricity produced from the thermoelectric element andconfigured to form a flow of fluid inside the containment. 2. The system of claim 1, wherein the fan unit is configured to increase a flow rate of the cooling fluid passing through the heat exchanger, to facilitate the heat exchange between the internal atmosphere and the cooling fluid within the heat exchanger. 3. The system of claim 2, wherein the heat exchanger is arranged within the containment such that the internal atmosphere is introduced directly into the heat exchanger. 4. The system of claim 3, further comprising:an emergency cooling fluid storage section configured to store an emergency cooling fluid introduced into the heat exchanger for the heat exchange with the internal atmosphere upon an occurrence of an accident; andcooling fluid flow paths configured to connect the emergency cooling fluid storage section to the heat exchanger such that the emergency cooling fluid is introduced into the heat exchanger. 5. The system of claim 4, wherein the fan unit is configured to blow the internal atmosphere toward the heat exchanger, to facilitate steam discharged from the reactor system to be introduced into the heat exchanger from a portion above the heat exchanger. 6. The system of claim 1, further comprising:an emergency cooling fluid storage section configured to store an emergency cooling fluid introduced into the heat exchanger for the heat exchange with the internal atmosphere upon an occurrence of an accident; anda circulation flow path configured to allow the emergency cooling fluid within the emergency cooling fluid storage section to be circulated within the heat exchanger and the emergency cooling fluid storage section therethrough,wherein the fan unit is located inside the containment and arranged on an internal atmosphere introduction flow path to introduce the internal atmosphere into the heat exchanger. 7. The system of claim 1, wherein the electricity path is provided with a charging unit disposed on the electricity path to store the electricity produced from the thermoelectric element so as to supply the electricity to the fan unit. 8. The system of claim 1, wherein the heat exchanger is configured as an air-cooling type. 9. The system of claim 8, further comprising:an emergency cooling fluid storage section configured to store the emergency cooling fluid introduced into the heat exchanger for the heat exchange with the internal atmosphere; anda cooling fluid flow path configured to connect the emergency cooling fluid storage section to the heat exchanger such that the emergency cooling fluid is introduced into the heat exchanger. 10. The system of claim 9, wherein a pump unit is disposed on the cooling fluid flow path such that the emergency cooling fluid is efficiently introduced into the heat exchanger,the pump unit allowing the emergency cooling fluid to be supplied from the emergency cooling fluid storage section into the heat exchanger. 11. The system of claim 8, further comprising:a cooling fluid storage section disposed adjacent to the containment to store therein the cooling fluid for reducing the internal temperature of the containment; anda spray device disposed at an upper side within the containment and configured to spray the cooling fluid supplied from the cooling fluid storage section into the containment when an accident occurs within the containment,wherein a pump unit is disposed on a fluid supply flow path for connecting the cooling fluid storage section and the spray device to each other, to supply the cooling fluid into the spray device by using the electricity produced from the thermoelectric element arranged in the heat exchanger. 12. The system of claim 9, further comprising:a cooling fluid storage section disposed adjacent to the containment to store therein the cooling fluid for reducing the internal temperature of the containment; anda safety injection system configured to inject fluid into the reactor system when an accident occurs in the reactor system,wherein a pump unit is disposed on a fluid supply flow path for connecting the safety injection system to the cooling fluid storage section to supply the cooling fluid to the safety injection system by using the electricity produced from the thermoelectric element arranged in the heat exchanger such that the safety injection system injects the cooling fluid into the reactor system. 13. The system of claim 9, further comprising a cooling fluid storage section disposed adjacent to the containment to store therein the cooling fluid for reducing the internal temperature of the containment,wherein a pump unit is configured to introduce the cooling fluid stored in the cooling fluid storage section into the emergency cooling fluid storage section when a water level of the emergency cooling fluid storage section is decreased.