Patent Number: 043326390
Section: claims

1. In a nuclear reactor of the type having an internal core housed within a vessel, and a plurality of fuel assemblies housed within said core, each of said fuel assemblies including an open container having an inlet and outlet and an active substance such as plutonium oxide sealed within a relatively large number of elongated hollow pins located within said container, said reactor also including liquid metal heat exchanging fluid such as liquid sodium and means for circulating a stream of said fluid along a path, a section of which passes through said containers from their inlets to said outlets, a system for detecting breaks in said hollow pins, which breaks are of sufficient size to cause at least one predetermined contaminant to pass into said stream of fluid as the latter passes through said containers, said system comprising: first means including a first pump for collecting a combined sample of said fluid at the outlets of at least a group of said fuel assembly containers;  first means for detecting the presence or absence of said contaminant in said combined sample, whereby to indicate the presence or absence of a break in at least one pin in said group of fuel assemblies;  second means including a second pump having a lower flow rate capability than said first pump for selectively collecting individual samples of said fluid, one at a time, at the outlets of the fuel assembly containers in said group in the event said combined sample detecting means indicates the presence of a pin break said individual sample collecting second means including valve means for collecting said individual samples one at a time, said valve means including a main housing having wall means defining a plurality of spaced openings therethrough, said openings corresponding to and being in fluid communication with the outlets of said group of fuel assembly containers, respectively, a valve head located within said main housing and adapted for positioning in fluid communication with said openings individually, whereby to collect said individual fluid samples, and means for moving said valve head between said fluid communicating positions without engaging the inner surface of said wall means during movement of the valve head between said positions; and  second means including a single detector for detecting the presence or absence of said contaminant in each of said individual samples, whereby to indicate the fuel assembly or assemblies responsible for the presence of said contaminant.  a housing having openings corresponding in number to and in fluid communication with the outlet of at least a group of said fluid assembly containers for simultaneously receiving and combining heat exchanging fluid passing through the outlets of all of the containers in said group; and  said assembly also including means for collecting a sample of said combined fluid for passing it to a first contaminant detection location and means for selectively collecting individual samples of said fluid, one at a time, from the outlets of said container group before the fluid is combined in said housing for passing said individual samples to a second contaminant detection location, said individual sample collecting means including a valve head located within said housing and adapted for positioning in fluid communication with said openings, individually, whereby to collect said individual samples, and means for moving said valve head between said fluid communicating positions without engaging the inner surface of said housing.  providing a housing having openings corresponding to and in fluid communication with the outlets of at least a group of said fuel assembly containers, for simultaneously receiving and combining heat exchanging fluid passing through all of the containers in said group;  collecting a sample of said combined fluid for passing it to a first contaminant detection location; and  under predetermined circumstances, collecting individual samples of said fluid, one at a time, from the outlets of said container group before the fluid is combined in said housing and passing said individual samples to a second contaminant detection location, said individual sample collecting step including locating a valve head within said housing, positioning it in fluid communication with said openings, individually, whereby to collect said individual samples, and moving said valve head between said fluid communicating positions without engaging the inner surface of said housing. 2. A system according to claim 1 wherein said moving means includes first means for selectively moving said valve head to a position in confronting spaced relation with any of said openings, a predetermined distance from said inner surface, and second means for moving said valve head between any one of said confronting, spaced positions and a second position in engagement with the inner surface of said wall means surrounding the confronting, spaced positions and a second position in engagement with the inner surface of said wall means surrounding the confronting opening for placing said valve head in fluid communication therewith. 3. In a nuclear reactor of the type having an internal core housed within a vessel, and a plurality of fuel assemblies housed within said core, each of said fuel assemblies including an opened container having an inlet and outlet and an active substance such as plutonium oxide sealed within a relatively large number of elongated hollow pins located within said container, said reactor also including liquid metal heat exchanging fluid such as liquid sodium and means for circulating a stream of said fluid along a path, a section of which passes through said containers from their inlets to their outlets, a valve assembly for use in a system for detecting breaks in said hollow pins, said assembly comprising: 4. An assembly according to claim 3 wherein said moving means includes first means for selectively moving said valve head to a position in confronting spaced relation with any of said openings, a predetermined distance from the inner surface of said housing, and second means for moving said valve head between any one of said confronting, spaced positions and a second position in engagement with the inner surface of said housing surrounding a confronting opening for fluid communication therewith. 5. In a nuclear reactor of the type having an internal core housed within a vessel, and a plurality of fuel assemblies housed within said core, each of said fuel assemblies including an opened container having an inlet and outlet and an active substance such as plutonium oxide sealed within a relatively large number of elongated hollow pins located within said container, said reactor also including liquid metal heat exchanging fluid such as liquid sodium and means for circulating a stream of said fluid along a path, a section of which passes through said containers from their inlets to said outlets, a method of collecting fluid samples for use in a system for detecting breaks in said hollow pins, said method comprising: 6. A method according to claim 5 wherein said moving step includes selectively moving said valve head to a position in confronting spaced relation with any of said openings, a predetermined distance from the inner surface of said housing and moving said valve head between any one of said confronting, spaced positions and a second position in engagement with the inner surface of said housing surrounding of the confronting opening for fluid communication therewith.