| CPC G21C 1/326 (2013.01) [G21C 1/322 (2013.01); G21C 15/02 (2013.01); G21C 15/14 (2013.01); G21C 15/243 (2013.01)] | 3 Claims |
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1. An integral nuclear reactor with a circulating heat transfer liquid, the integral nuclear reactor comprising:
a core fluidly coupled to an inlet chamber and fluidly coupled to an outlet chamber;
a protective plug located above the outlet chamber;
a hub housing the core, the inlet chamber, the outlet chamber, and the protective plug, wherein the hub includes a window which allows hot heat carrier to flow out of the outlet chamber and through the hub;
a separation shell separating cold heat carrier from the hot heat carrier, wherein the separation shell:
houses the hub, defining an annular space between the hub and the separation shell, and
is located within a reactor vessel, defining an annular downcomer duct between the separation shell and the reactor vessel;
a heat exchanger located in at least a portion of the annular space, wherein the heat exchanger includes:
a first section and a second section, the first section includes a first group of tubes at least partially located in an inlet chamber of a secondary heat carrier circuit and the second section includes a second group of tubes at least partially located in an outlet chamber of the secondary heat carrier circuit, wherein the inlet chamber of the secondary heat carrier circuit and the outlet chamber of the secondary heat carrier circuit are defined by respective pipes on a reactor head,
a heat exchanger inlet at which the hot heat carrier enters the heat exchanger after exiting the outlet chamber of the core and through the window; and,
a heat exchanger outlet at which the cold heat carrier exits the heat exchanger and enters an annular delay tank; wherein
the annular delay tank is fluidly coupled to the annular downcomer duct allowing the cold heat carrier to exit the annular delay tank and flow through the annular downcomer duct and into the inlet chamber of the core.
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