Patent Number: 051184664
Section: claims

1. A nuclear reactor coolant pump for pumping reactor coolant fluid in a reactor coolant system, said pump comprising: (a) a casing having an end defining a central inlet nozzle for receiving a reactor coolant fluid, a peripheral outlet nozzle for discharging the reactor coolant fluid, and an annular passage interconnecting said inlet nozzle and said outlet nozzle through which the reactor coolant fluid can flow in a main stream from said inlet nozzle to said outlet nozzle;  (b) a central rotor extending axially through said casing and having opposite ends, one of said ends being disposed adjacent said annular passage defined by said casing end;  (c) first and second bearings rotatably mounting said rotor adjacent said opposite ends thereof to said casing;  (d) a motor disposed about said rotor and between said first and second bearings, said motor including a rotor section mounted to said central rotor for rotation therewith and a stator section mounted stationarily to said casing and about said rotor section, said motor being operable for rotatably driving said central rotor;  (e) an impeller mounted to said one end of said central rotor in communication with said annular passage and rotatable with said rotor so as to create a lower pressure at said central inlet nozzle than at said peripheral outlet nozzle thereof for drawing reactor coolant fluid axially into said one casing end through said central inlet nozzle thereof and discharging reactor coolant fluid from said one casing end tangentially through said peripheral outlet nozzle thereof after movement in a main flowstream through said annular passage of said one casing end; and  (f) a self-cooling arrangement defining a fluid flow loop in flow communication with said annular passage and in heat transfer relationship with said first and second bearings and said motor and being operable for diverting only a small fraction of the reactor coolant fluid from and back to said main stream through said annular passage to cool said bearings and motor.  said inner loop portion includes an inner annulus; and  said outer loop portion includes an outer annulus surrounding and spaced radially outwardly from said inner annulus.  an outer annulus surrounding an exterior of said motor and defined by a portion of said casing surrounding and spaced outwardly from said motor exterior; and  a plurality of channels extending between said outer annulus and said entry ports.  said motor includes a rotor section mounted to said central rotor for rotation therewith and a stator section mounted stationarily to said casing and about said rotor section; and  said loop includes an inner annulus defined by an annular clearance between said rotor and stator sections of said motor.  a separator element mounted to said rotor for rotation therewith and extending across said flow loop for striking particles entrained in the flow of fluid in said loop and flinging the particles out of said loop; and  an annular deadend cavity defined in said casing and surrounding the rotational path of said separator element of receiving and trapping particles flung therein by said rotating separator element. 2. The pump as recited in claim 1, wherein said fluid flow loop includes outer and inner loop portions, said outer loop portion being located farther radially outwardly from said central rotor than said inner loop portion. 3. The pump as recited in claim 2, wherein: 4. The pump as recited in claim 3, wherein said inner loop portion further includes lower and upper pathways defined along and past said lower and upper bearings, said upper pathways connecting in flow communication said inner annulus and said annular passage, said lower pathways connecting in flow communication said inner annulus and said outer annulus. 5. The pump as recited in claim 1, wherein said self-cooling arrangement includes a plurality of entry and exit ports to said loop defined in flow communication with said annular passage, said entry ports being located downstream of and at points of greater pressure in the main stream of fluid flow than said exit ports. 6. The pump as recited in claim 5, wherein said exit ports are defined through said impeller. 7. The pump as recited in claim 5, wherein said fluid flow loop includes outer and inner loop portions, said outer loop portion being located farther radially outwardly from said central rotor than said inner loop portion, said outer loop portion being connected at one end to said entry ports and said inner loop portion being connected at one end to said exit ports, said outer and inner loop portions being interconnected at respective other ends in flow communication with one another. 8. The pump as recited in claim 5, wherein said loop includes: 9. The pump as recited in claim 8, wherein: 10. The pump as recited in claim 1, wherein said self-cooling arrangement further includes a plurality of deflector elements mounted to said casing adjacent to and upstream of said entry ports for impeding particles entrained in the main stream of fluid flow from passing through said entry ports. 11. The pump as recited in claim 1, wherein said self-cooling arrangement further includes: