Patent Number: 053655559
Section: claims

1. A system for measuring water level comprising: a reactor pressure vessel containing a nuclear reactor core and a steam separator assembly disposed thereabove, said vessel being fillable with water to a nominal level above said core;  a reference leg for containing a predetermined first reference column height of water having a reference level disposed vertically above said nominal level;  a first variable leg having a first tap disposed in flow communication with said vessel at a predetermined first depth below said reference level and below said nominal level and adjacent said steam separator assembly, and further having a first port;  a first monitor disposed in flow communication with said reference leg and said first port for determining differential pressure therebetween to indicate level of said water in said vessel above said first tap;  a second variable leg having a second tap disposed in flow communication with said vessel at a predetermined second depth below said reference level, said nominal level, and said first tap, and further having a second port; and  a second monitor disposed in flow communication with said first leg and said second port for determining differential pressure therebetween to indicate level of said water between said first and second taps when said water level falls below said first tap, with said first leg being inclined downwardly for containing water therein up to said first tap to provide a predetermined second reference column height for said second monitor.  a steam leg having an inlet port disposed in flow communication with said vessel above said first tap and said nominal level, and further having an outlet port; and  a condensing chamber having an inlet disposed in flow communication with said steam leg outlet port for receiving steam therethrough from said vessel to form condensate in said chamber, and an outlet disposed in flow communication with said reference leg for discharging thereto said condensate.  a third variable leg having a third tap disposed in flow communication with said vessel at a predetermined third depth below said reference level and said first tap, and above said second tap, and further having a third port; and  a third monitor disposed in flow communication with said reference leg and said third port for determining differential pressure therebetween to indicate level of said water in said vessel above said third tap.  first, second and third taps arranged in flow communication with the inside of said reactor pressure vessel, said first tap being located at a height higher than said predetermined height, said second tap being located at a height lower than said predetermined height and adjacent to said steam separator assembly, and said third tap being located at a height lower than the height of said second tap;  a steam leg having a lower port at one end in flow communication with said first tap and an upper port at the other end, said lower port of said steam leg being located at a height lower than a height of said upper port of said steam leg; and  means for condensing steam passing through said steam leg into water, said steam condensing means being in flow communication with said upper port of said steam leg;  a reference leg having an upper port at one end in flow communication with said steam condensing means and a lower port at the other end, said lower port of said reference leg being located at a height lower than a height of said upper port of said reference leg, said reference leg being fillable with water to a reference level located at a height higher than said predetermined height;  a first variable leg having an upper port at one end in flow communication with said second tap and a lower port at the other end, said lower port of said first variable leg being located at a height lower than a height of said upper port of said first variable leg;  a second variable leg having an upper port at one end in flow communication with said third tap and a lower port at the other end, said lower port of said second variable leg being located at a height lower than a height of said upper port of said second variable leg;  a first extension leg having an upper port at one end in flow communication with said first variable leg and a lower port at the other end, said lower port of said first extension leg being located at a height lower than a height of said upper port of said first extension leg;  a first differential pressure monitor having a first input in flow communication with said lower port of said reference leg and a second input in flow communication with said lower port of said first variable leg; and  a second differential pressure monitor having a first input in flow communication with said lower port of said extension leg and a second input in flow communication with said lower port of said second variable leg.  a fourth tap arranged in flow communication with the inside of said reactor pressure vessel, said fourth tap being located at a height lower than said predetermined height and higher than the height of said third tap;  a third variable leg having an upper port at one end in flow communication with said fourth tap and a lower port at the other end, said lower port of said third variable leg being located at a height lower than a height of said upper port of said third variable leg;  a second extension leg having an upper port at one end in flow communication with said reference leg and a lower port at the other end, said lower port of said second extension leg being located at a height lower than a height of said upper port of said second extension leg; and  a third differential pressure monitor having a first input in flow communication with said lower port of said second extension leg and a second input in flow communication with said lower port of said third variable leg.  a third extension leg having an upper port at one end in flow communication with said third variable leg and a lower port at the other end, said lower port of said third extension leg being located at a height lower than a height of said upper port of said third extension leg;  a fourth extension leg having an upper port at one end in flow communication with said first extension leg and a lower port at the other end, said lower port of said fourth extension leg being located at a height lower than a height of said upper port of said fourth extension leg; and  a fourth differential pressure monitor having a first input in flow communication with said lower port of said third extension leg and a second input in flow communication with said lower port of said fourth extension leg.  first and second taps arranged in flow communication with the inside of said reactor pressure vessel, said first tap being located at a height lower than said predetermined height and adjacent to said steam separator assembly, and said second tap being located at a height lower than the height of said first tap;  a reference leg having an upper port at one end and a lower port at the other end, said lower port of said reference leg being located at a height lower than a height of said upper port of said reference leg, said reference leg being fillable with water to a reference level located at a height higher than said predetermined height;  a first variable leg having an upper port at one end in flow communication with said first tap and a lower port at the other end, said lower port of said first variable leg being located at a height lower than a height of said upper port of said first variable leg;  a second variable leg having an upper port at one end in flow communication with said second tap and a lower port at the other end, said lower port of said second variable leg being located at a height lower than a height of said upper port of said second variable leg;  a first extension leg having an upper port at one end in flow communication with said first variable leg and a lower port at the other end, said lower port of said first extension leg being located at a height lower than a height of said upper port of said first extension leg;  a first differential pressure monitor having a first input in flow communication with said lower port of said reference leg and a second input in flow communication with said lower port of said first variable leg; and  a second differential pressure monitor having a first input in flow communication with said lower port of said extension leg and a second input in flow communication with said lower port of said second variable leg.  a third tap arranged in flow communication with the inside of said reactor pressure vessel, said third tap being located at a height higher than said predetermined height;  a steam leg having a lower port at one end in flow communication with said third tap and an upper port at the other end, said lower port of said steam leg being located at a height lower than a height of said upper port of said steam leg; and  means for condensing steam passing through said steam leg into water, said steam condensing means being in flow communication with said upper port of said steam leg and with said upper port of said reference leg.  a fourth tap arranged in flow communication with the inside of said reactor pressure vessel, said fourth tap being located at a height lower than said predetermined height and higher than the height of said second tap;  a third variable leg having an upper port at one end in flow communication with said fourth tap and a lower port at the other end, said lower port of said third variable leg being located at a height lower than a height of said upper port of said third variable leg;  a second extension leg having an upper port at one end in flow communication with said reference leg and a lower port at the other end, said lower port of said second extension leg being located at a height lower than a height of said upper port of said second extension leg; and  a third differential pressure monitor having a first input in flow communication with said lower port of said second extension leg and a second input in flow communication with said lower port of said third variable leg.  a third extension leg having an upper port at one end in flow communication with said third variable leg and a lower port at the other end, said lower port of said third extension leg being located at a height lower than a height of said upper port of said third extension leg;  a fourth extension leg having an upper port at one end in flow communication with said first extension leg and a lower port at the other end, said lower port of said fourth extension leg being located at a height lower than a height of said upper port of said fourth extension leg; and  a fourth differential pressure monitor having a first input in flow communication with said lower port of said third extension leg and a second input in flow communication with said lower port of said fourth extension leg. 2. A system according to claim 1 further comprising: 3. A system according to claim 2 wherein said first tap is disposed above said core, and said second tap is disposed below said core. 4. A system according to claim 3 further comprising: 5. A system according to claim 4 wherein said third tap is disposed adjacent the top of said core and said second tap so that said first monitor indicates said water level from said nominal level down to about said first tap, said third monitor indicates said water level from said nominal level down to about said third tap, and said second monitor indicates said water level from about said first tap down to about said second tap. 6. A system according to claim 5 further comprising a fourth monitor disposed in flow communication between said first and third legs for determining differential pressure therebetween to indicate level of said water in said vessel between said first and third taps when said water level falls below said first tap. 7. A system for measuring the level of water inside a reactor pressure vessel containing a fuel core and a steam separator assembly arranged above said fuel core, said reactor pressure vessel having a normal water level at a predetermined height between said steam separator assembly and said fuel core, comprising: 8. The system as defined in claim 7, wherein said third tap is located at a height lower than said core. 9. The system as defined in claim 7, further comprising: 10. The system as defined in claim 9, further comprising: 11. A system for measuring the level of water inside a reactor pressure vessel containing a fuel core and a steam separator assembly arranged above said fuel core, said reactor pressure vessel having a normal water level at a predetermined height between said steam separator assembly and said fuel core, comprising: 12. The system as defined in claim 11, further comprising: 13. The system as defined in claim 11, wherein said second tap is located at a height lower than said core. 14. The system as defined in claim 11, further comprising: 15. The system as defined in claim 14, further comprising: