Passive System for Cooling the Core of a Nuclear Reactor

摘要

A system for passively cooling nuclear fuel in a pressurized water reactor during refueling that employs gravity and alignment of valves using battery reserves or fail in a safe position configurations to maintain the water above the reactor core during reactor disassembly and refueling. A large reserve of water is maintained above the elevation of and in fluid communication with the spent fuel pool and is used to remove decay heat from the reactor core after the reaction within the core has been successfully stopped. Decay heat is removed by boiling this large reserve of water, which will enable the plant to maintain a safe shutdown condition without outside support for many days.

主权项

1. A method of passively, safely maintaining a coolant level of a nuclear power generating facility, above a nuclear core at a preprogrammed level for an extended period of time during a facility outage in which a reactor vessel housing the nuclear core is substantially depressurized, the power generating facility comprising:
a containment building that houses the reactor vessel which has an elongated axial dimension that surrounds the nuclear core in which fission reactions take place, and an open end of the reactor vessel is axially spaced from the nuclear core, with the open end sealed by a head at a reactor vessel flange; a spent fuel pool supported outside the containment building at an elevation that extends substantially above the reactor vessel, the spent fuel pool being in fluid communication with an interior of the reactor vessel through a first valve that is configured to automatically supply coolant from the spent fuel pool to the interior of the reactor vessel when a sensed level of coolant within the reactor vessel is below a given level; and an ultimate heat sink coolant reservoir whose upper level of a coolant under normal operation of the nuclear power generating facility is supported at an elevation substantially above the spent fuel pool, with a lower portion of the ultimate heat sink coolant reservoir in fluid communication with the spent fuel pool through a second valve whose operation is automatically controlled by a level of coolant in the spent fuel pool to maintain the coolant in the spent fuel pool at approximately a preselected level;the method including the steps of:
sensing coolant level within the reactor vessel above the nuclear core from a gauge on a branch coolant line connected to the reactor vessel, having an output indicative of a coolant level above the nuclear core; automatically controlling the first valve to drain coolant from the spent fuel pool into the reactor vessel when the sensing step identifies the coolant level is at the given level to maintain the coolant level within the reactor vessel at the preprogrammed level above the nuclear core; and automatically controlling the second valve to drain coolant from the ultimate heat sink coolant reservoir into the spent fuel pool to maintain the coolant in the spent fuel pool at approximately the preselected level.