Patent Number: 047284862
Section: claims

1. In a pressure control system of a pressurized water nuclear reactor, containing a pressurizer, water sprayers and means for charging water to said water sprayers, heaters, power operated relief valves and safety relief valves, wherein the valves each are connected to the pressurizer through a conduit forming a loop seal upstream from each valve for accumulation of a water seal for the valve seat thereof, and the valves discharge through a line to a pressurizer relief tank, the improvement comprising: means for charging water to each of said loop seals;  means for sensing a variation in temperature in each of said loop seals resulting from the discharge of the water seal therefrom and passage of steam therethrough, or formation of a water seal replacing steam therein; and  means responsive to said means for sensing a variation in temperature to activate said means for charging water to charge water to at least one of said loop seals upon a rise in temperature therein, and deactivate said means for charging water thereto upon a drop in temperature therein.  a water supply conduit and plurality of branch conduits, the water supply conduit communicating between said sprayer conduit and said branch conduits and having a water supply valve therein, and one of said plurality of branch conduits cooperating with a drain conduit of each of said loop seals;  a temperature detecting device on each of said loop seals for sensing a variation in temperature therein, said temperature detecting device effective to open the water supply valve to feed water to the loop seal upon a rise in temperature within the area of the loop seal, and close the water supply valve to stop the feed of water to the loop seal upon a drop in temperature within the area of the loop seal.  sensing the temperature rise in the area of said loop seal, above a predetermined temperature, caused by the discharge of water therefrom and passage of steam therethrough;  charging water to said loop seal upon sensing of said temperature rise in an amount to produce a replacement water seal therein and lower the temperature to below said predetermined temperature in the area of said loop seal; and  stopping the flow of said charging water to said loop seal upon lowering of the temperature of the area of the loop seal below said predetermined temperature. 2. The pressure control system of a pressurized water nuclear reactor as defined in claim 1, wherein said means for charging water to each of said loop seals is a water supply conduit which directs water from the means for charging water to said water sprayers. 3. The pressure control system of a pressurized water nuclear reactor as defined in claim 2 wherein each said loop seal has a drain conduit, and said means for charging water to each said loop seal is connected to said drain conduit for said loop seal and a flow control orifice is contained within said drain conduit. 4. The pressure control system of a pressurized water nuclear reactor as defined in claim 3 wherein said means for charging water to each said loop seal includes a common water supply conduit and a plurality of branch conduits, one of each of said branch conduits supply water to a respective drain conduit. 5. The pressure control system of a pressurized water nuclear reactor as defined in claim 4 wherein said means responsive to said means for sensing a rise in temperature comprises a valve in said common water supply conduit. 6. The pressure control system of a pressurized water nuclear reactor as defined in claim 5 wherein said common water supply conduit is connected to the means for charging water to said water sprayers, said common water supply conduit having a flow restriction orifice therein upstream from said valve therein. 7. The pressure control system of a pressurized water nuclear reactor as defined in claim 2 wherein said water supply conduit has a flow restricting orifice contained therein. 8. The pressure control system of a pressurized water nuclear reactor as defined in claim 1 wherein said means for sensing a variation in temperature is a strap-on non-invasive temperature sensor and said means responsive thereto is a solenoid valve located in a water supply line to said loop seals. 9. In a pressure control system of a pressurized water nuclear reactor, containing a pressurizer, water sprayers and a sprayer conduit for charging water to said water sprayers, heaters, power operated relief valves and safety valves, wherein the valves each are connected to the pressurizer through a conduit forming a loop seal upstream from each valve for accumulation of a water seal for the valve seat thereof, each said loop seal having a drain conduit thereon, and the valves discharge through a line to a pressurizer relief tank, the improvement comprising: 10. The pressure control system of a pressurized water nuclear reactor as defined in claim 9 wherein a flow restriction orifice is provided in said water supply conduit between said sprayer conduit and said water supply valve. 11. The pressure control system of a pressurized water nuclear reactor as defined in claim 10 where a flow restriction orifice is provided in each of said drain conduits. 12. A method for effecting the closing of power operated relief valve or safety valve of a pressure control system for a nuclear reactor plant containing such valves, and a pressurizer, with water supplied to the pressurizer through a conduit to water sprayers which valves have a water-filled loop seal connected therewith, the water in said water-filled loop seal being discharged therefrom when the valve is opened and steam passed therethrough comprising: 13. The method as defined in claim 12 wherein said water charged to said loop seals is a portion of the water in the conduit supplied to the water sprayers of the pressurizer. 14. The method as defined in claim 13 wherein the rate of flow of water charged to said loop seal is controlled by at least one flow restriction orifice. 15. The method as defined in claim 14 wherein each said loop seal has an upstream and downstream leg and the sensing of the temperature rise and drop are effected at the upstream leg of said loop seal.