Patent Number: 045086770
Section: claims

1. A transportable prefabricated fast-breeder nuclear heat supply module for shipment to and erection at an electric-power generating facility comprising: a primary vessel having a removable recessed head including a cylindrical wall;  an outer vessel surrounding said primary vessel and close-coupled thereto to define an interstitial region therebetween, said outer vessel having a removable head and having dimensions sized for shipment on a railroad car;  a fast-breeder reactor core unit mounted within said primary vessel, said reactor core unit including a plurality of control rods;  a heat exchanger of cylindrical annular shape mounted within said primary vessel and having an outer cylindrical wall in common with said primary vessel, said heat exchanger having an inlet and an outlet for secondary coolant;  inlet means and outlet means communicating through said outer and primary vessels with said heat-exchanger inlet and outlet, respectively, said inlet means and said outlet means being adapted for connection to a secondary cooling system;  a pump mounted within said primary vessel underneath the reactor core unit for pumping a primary coolant upwardly through said reactor core unit and said heat exchanger;  first means defining an inlet plenum positioned intermediate the pump and the overlying reactor core, said pump and said reactor core unit communicating directly with said intermediate inlet plenum to define a direct upward primary coolant flow path from said pump to said reactor core unit;  second means defining a primary coolant flow path from said reactor core unit to said heat exchanger including an inner cylindrical wall of said heat exchanger and said cylindrical wall of said recessed head, whereby said heat exchanger serves to isolate said primary coolant from said primary vessel to reduce thermal stress in said primary vessel, said heat exchanger providing a downward flow path for said primary coolant in counterflow to a secondary coolant, and third means defining a primary coolant flow path from said heat exchanger to an inlet of said pump mounted underneath the reactor core, said third means including a first shielding member surrounding said reactor core unit and extending upward therefrom thereby to shield said heat exchanger from said reactor core unit, and a second shielding member interiorly lining a portion of said primary vessel, said second means and said third means being devoid of piping; and  a control rod drive unit mounted within the recess defined by said recessed head and operatively connected through the bottom of said recessed head to said control rods;  whereby primary coolant will be contained entirely within said primary vessel and said nuclear heat supply module will be in fluid communication with the balance of said electric-power generating facility only through said secondary coolant inlet means and outlet means.  a primary vessel, a containment vessel surrounding said primary vessel, and a confinement vessel surrounding said containment vessel, said containment vessel being close-coupled to said primary vessel to defne a first interstitial region therebetween and said confinement vessel being close-coupled to said containment vessel to define a second interstitial region therebetween, said confinement vessel having outer dimensions sized for shipment on a railway car;  a fast-breeder reactor core unit mounted within said primary vessel and including a plurality of control rods;  a counterflow heat exchanger mounted within said primary vessel and extending about said reactor core unit, said heat exchanger having a first wall in common with said primary vessel, said heat exchanger having an inlet at a lower extremity thereof and an outlet at an upper extremity thereof for secondary coolant at said first wall;  inlet means and outlet means communicating through said confinement and containment vessels with said heat exchanger inlet and outlet, respectively, said inlet means and said outlet means being adapted for connection to a secondary cooling system;  an electromagnetic pump mounted within said primary vessel directly underneath the reactor core unit for pumping a liquid metal primary coolant upwardly through said reactor core unit and said heat exchanger;  first means defining an inlet plenum positioned intermediate the pump and the overlying reactor core unit, said pump and said reactor core unit communicating directly with said intermediate inlet plenum to define a direct upward primary coolant flow path from said pump to said reactor core unit;  wherein a second wall of said primary vessel and a third wall of said heat exchanger define a flow path for said primary coolant from said reactor core unit to said heat exchanger, said third wall having an inlet at an upper extremity thereof for primary coolant and to provide a downward flow path for said primary coolant through the heat exchanger in counterflow to a secondary coolant;  and wherein a fourth wall and a fifth wall define a flow path for said primary coolant from a lower extremity of said heat exchanger to an inlet of said pump mounted underneath the reactor core unit; and  a control rod drive unit mounted within said containment vessel outside said primary vessel and operatively connected through said primary vessel to said control rods;  whereby said primary coolant flows upward through said reactor core unit and to the upper extremity of said heat exchanger, and downward through said heat exchanger and to said pump inlet in a flow path devoid of piping and said nuclear heat supply module is in fluid communication with the balance of said electric-power generating facility only through said secondary coolant inlet means and outlet means.  a nuclear heat supply module having an outer wall;  a plurality of shell segments adapted to be joined to one another in surrounding relation to said nuclear heat supply module, the joined shell segments defining an inner wall immediately adjacent the outer wall of said nuclear heat supply module, an outer wall spaced apart from said inner wall and an intermediate wall spaced apart from said inner and outer walls to define therebetween an inner interstitial region providing a water jacket and an outer interstitial region for receiving a cementatious material;  a plurality of heat exchange loops secured to said segments, each loop having an inner branch defining a first heat exchange area disposed at the inner wall of the shell segments for placement intimate to the outer wall of said heat supply module and an outer branch defining a second heat exchange area disposed at the outer surface of said segmented shell outer wall;  whereby said segmented shell when assembled about said heat supply module provides a form for the pouring and curing of a biological shield of cementatious material and said heat exchange loops provide an emergency heat removal system.  a primary vessel having a removable recessed head;  an outer vessel surrounding said primary vessel and close-coupled thereto to define a first interstitial region therebetween;  a reactor core unit mounted within said primary vessel, said reactor core unit including a plurality of control rods;  a heat exchanger mounted within said primary vessel, said heat exchanger having an inlet and an outlet for secondary coolant;  inlet means and outlet means communicating through said outer and primary vessels with said heat exchanger inlet and outlet, respectively, said inlet means and said outlet means being adapted for connection to a secondary cooling system;  a pump mounted within said primary vessel directly underneath the reactor core unit for pumping a primary coolant upwardly through said reactor core unit and said heat exchanger;  first means defining an inlet plenum positioned intermediate the pump and the overlying reactor core unit, said pump and said reactor core unit communicating directly with said intermediate inlet plenum to define a direct upward primary coolant flow path from said pump to said reactor core unit;  second means defining a primary coolant flow path from said reactor core unit to said heat exchanger and downwardly therethrough in counterflow to an upwardly flowing secondary coolant, and third means defining a primary coolant flow path from said heat exchanger to an inlet of said pump mounted directly underneath the reactor core unit, said second means and said third means being devoid of piping; and  a control rod drive unit mounted within the recess defined by said recessed head and operatively connected to said control rods;  an annular shell surrounding said outer vessel, said shell having an inner wall adjacent the outer wall of said outer vessel and an outer wall spaced apart from said inner wall to define therebetween a second interstitial region;  a plurality of heat exchange loops, each having an inner branch defining a first heat exchange area disposed intimate to said outer vessel outer wall and an outer branch defining a second heat exchange area disposed at the outer surface of said segmented shell outer wall thereby to provide emergency heat removal from said nuclear reactor; and  a hardened cementatious material within said second interstitial region providing a biological shield for said nuclear reactor;  wherein said secondary coolant inlet means and outlet means extend through said biological shield and said annular shell to provide fluid communication between said modular reactor and the balance of an electric-power generating facility. 2. The nuclear heat supply module of claim 1, wherein said reactor core unit comprises a plurality of nuclear fuel assembly ducts and wherein said first means defining said inlet plenum includes a perforate support plate for supporting said reactor core unit, said fuel assembly ducts seating in the perforations of said support plate, and said reactor core unit further including a plurality of tubular coolant-receiving members in communication with said fuel assembly ducts and passing through said perforations into said inlet plenum, whereby high pressure primary coolant passes from said inlet plenum to said fuel assembly ducts. 3. The nuclear heat supply module of claim 1, wherein said primary vessel head and said outer vessel head are adapted to be hermetically resealable to their respective vessels. 4. The nuclear heat supply module of claim 1, wherein said outer vessel comprises a containment vessel and a confinement vessel surrounding said containment vessel and close-coupled thereto to define an interstitial region therebetween, said primary vessel, said containment vessel, and said confinement vessel each having a removable head, said primary vessel head and said containment vessel head being adapted to be hermetically resealable to their respective vessels. 5. The nuclear heat supply module of claim 1, wherein said pump is provided by an electromagnetic pump for circulating a liquid metal primary coolant. 6. A transportable prefabricated fast-breeder nuclear heat supply module for shipment to and erection at an electric-power generating facility comprising: 7. The nuclear heat supply module of claim 6, wherein said primary vessel, said containment vessel, and said confinement vessel are of a generally cylindrical shape, said confinement vessel having a diameter not exceeding 14 feet and a length not exceeding 70 feet, whereby said nuclear heat supply module will not exceed the maximum dimensions transportable by railway car. 8. The nuclear heat supply module of claim 7, wherein said heat exchanger has a generally cylindrical annular shape and wherein said primary vessel has a generally cylindrical recessed head, said second and third walls defining said primary coolant flow path being provided, respectively, by the inner wall of said annular heat exchanger and by the cylindrical wall of said recessed head. 9. The nuclear heat supply module of claim 8, wherein said recessed head is removable and is adapted to be hermetically resealable to said primary vessel, said control rod drive unit being mounted within the recess of said head and communicating through a wall of said head for operative connection with said control rods. 10. The nuclear heat supply module of claim 9, wherein said containment vessel has a removable head adapted to be hermetically resealable to said containment vessel, and said primary vessel head and containment vessel head are each provided with means for introducing inert gas into said primary vessel and into said first interstitial region, respectively. 11. The nuclear heat supply module of claim 8, wherein said first means defining said inlet plenum includes a support plate for supporting said reactor core unit and coolant-receiving means communicating with said reactor core unit through said support plate and with said inlet plenum, whereby high-pressure coolant passes directly from said inlet plenum through said reactor core unit. 12. The nuclear heat supply module of claim 11 wherein said reactor core unit includes a plurality of fuel assembly ducts and said coolant-receiving means includes a plurality of coolant-receiving members in fluid communication with said fuel assembly ducts and wherein said pump has a high-pressure discharge centrally disposed beneath said reactor core unit, said first means including means defining a primary chamber for receiving primary coolant from said high-pressure discharge and means defining a distribution path from said primary chamber to said coolant-receiving members, whereby said coolant is distributed uniformly from said high-pressure discharge to said coolant receiving members. 13. A segmented shell for assembly about a nuclear heat supply module comprising: 14. The segmented shell of claim 13 wherein said heat exchange loops are provided by free-convection loops to provide passive emergency heat removal from said nuclear heat supply module. 15. The segmented shell of claim 14, wherein said inner and outer branches of said heat exchange loops are provided by tubular members having vertically extending serpentine configurations joined at the upper and lower extremities thereof by tubular portions traversing said interstitial region thereby to provide passive free-convection circulation of coolant within said loops. 16. The segmented shell of claim 13 wherein the joined shell segments further define an intermediate wall between said inner and outer walls, said intermediate wall and said inner wall forming a water jacket about said nuclear heat supply module. 17. The segmented shell of claim 16 further including means venting said water jacket to the exterior of said shell. 18. A modular nuclear reactor comprising: 19. The modular reactor of claim 18, further comprising transport means in operative association with said reactor for transporting said reactor into and out of position for coupling to said electric-power generating facility.