Patent Number: 052951693
Section: claims

1. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; a containment vessel housing said dry well; means defining a suppression chamber holding a suppression-pool water and forming above the suppression-pool water a first wet well; and passage means allowing said dry well to communicate with said suppression-pool water; wherein said facility further comprises: (a) means for defining a second wet well communicating with said first wet well; and  (b) cooling means for keeping said second wet well at a temperature lower than that of said first wet well at the time of a loss-of-coolant accident.  (c) a steel wall which surrounds at least said suppression-pool water in contact therewith to provide said containment vessel; and  (d) an outer peripheral pool containing a cooling water in contact with the outer peripheral surface of said steel wall.  (a) means for defining a second wet well communicating with said first wet well; and  (b) means for separating a mixture fluid consisting of a noncondensing gas in said suppression chamber and a steam from said suppression-pool water in the noncondensing gas and the steam and for causing the stem after the separation to remain in said first wet well and the noncondensing gas to be collected in said second wet well.  (c) a steel wall which surrounds at least said suppression-pool water in contact therewith to provide said containment vessel; and  (d) cooling means for cooling the outer peripheral surface of said steel wall.  (a) dividing means for dividing the wet well of said suppression chamber into a first space which is in contact with the water surface of said suppression-pool water and a second space which is not in contact therewith;  (b) first passage means which allows said first space to communicate with said second space and which has an area smaller than that of said dividing means; and  (c) cooling means for keeping said second space at a temperature lower than that of said first space.  (d) second passage means allowing a lower section of said second space to communicate with said suppression-pool water.  (e) at least one convection promoting pipe which is arranged in said outer peripheral pool and which has at least one upper opening situated below the water surface of said suppression-pool water at a position above outlets of said vent pipes and at least one lower opening situated in the suppression-pool water at a position below the outlets of said vent pipes, with said upper and lower openings communicating with each other to allow said pool water to pass therethrough.  (f) a convection promoting plate which is arranged in said suppression-pool water along said steel wall and which has an upper end positioned higher than outlets of said vent pipes and a lower end positioned lower than the outlets of said vent pipes, with the difference in height between said upper end and the outlets of said vent pipes being larger than the difference in height between the outlets of said vent pipes and said lower end.  (a) means arranged on the water surface of the suppression-pool water of said suppression chamber for serving to restrain evaporation of the suppression-pool water.  (b) a steel wall surrounding at least said suppression-pool water in contact therewith to provide said containment vessel; and  (c) cooling means for cooling the outer peripheral surface of said steel wall.  (a) a hydrophobic-material layer which is formed on the water surface of said suppression-pool water and which has a saturation vapor pressure and a density that are lower than those of the suppression-pool water.  (a) circulation passage means which has an intake opening situated in said suppression-pool water at a position higher that the suppression-pool water side outlet of the passage means and a discharge opening situated in said suppression-pool water at a position lower than the same, with at least a part of said circulation passage means being situated outside said suppression chamber.  (b) cooling means provided in that portion of said circulation passage means which is situated outside said suppression chamber.  (a) circulation passage means at least a part of which is situated outside said suppression chamber for causing the suppression-pool water to be circulated from a position higher than the suppression-pool water side outlet of the passage means to a position lower than the same.  (b) cooling means provided in that portion of said circulation passage means which is situated outside said suppression chamber.  (a) at least one convection promoting pipe which is arranged in said outer peripheral pool and which has at least one upper opening situated below the water surface of said suppression-pool water at a position above outlets of said vent pipes and at least one lower opening situated in the suppression-pool water at a position below the outlets of said vent pipes, with said upper and lower openings communicating with each other to allow said suppression-pool water to pass therethrough.  wherein the height of the dry-well-side openings of said first vent pipes is so determined that when the water level in the dry well, in which water overflowing from said reactor pressure vessel accumulates at the time of a loss-of-coolant accident, has attained a core submerging level which allows submergence cooling of said core, the water in the dry well starts to flow into said first suppression chamber through said first vent pipes.  (a) a second suppression chamber situated above said first suppression chamber and including a suppression pool and a wet well, said suppression pool communicating with said dry well through a plurality of second vent pipes; and  (b) a line equipped with a valve and connecting said second suppression chamber with said reactor pressure vessel to provide an emergency core cooling system.  (a) equalizing means which, for a long period of time after a loss-of-coolant accident, cools the core by supplying water into said pressure vessel, utilizing said suppression-pool water and the drawdown water accumulated in said dry well as a water source.  (b) first detection means for detecting a pressure in said pressure vessel;  (c) second detection means for detecting a water level in said pressure vessel;  (d) third detection means for detecting a pressure in said dry well;  (e) a pressure reducing valve connected with said pressure vessel and adapted to allow the steam in said pressure vessel to escape to said dry well; and  (f) control means which is adapted to open said pressure reducing valve, in response to a low-water-level signal indicative of low water level in said pressure vessel and supplied from said second detection means and to a high-pressure signal indicative of high pressure in said dry well and supplied from said third detection means, so as to allow the steam in said pressure vessel to escape therefrom, and which, afterwards, opens said isolation valve to operate said equalizing means, in response to a low-pressure signal indicative of low pressure in said pressure vessel. 2. A reactor containment facility as claimed in claim 1, wherein said suppression chamber is divided into a first chamber containing said suppression-pool water and a second chamber, said second wet well being defined by said second chamber. 3. A reactor containment facility as claimed in claim 1, further comprising: 4. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said rector pressure vessel is arranged; a containment vessel housing said dry well; means defining a suppression chamber holding a suppression-pool water and forming above the suppression-pool water a first wet well; and a passage means allowing said dry well to communicate with said suppression-pool water; wherein said facility further comprises: 5. A reactor containment facility as claimed in claim 4, further comprising: 6. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; means defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; a plurality of vent pipes allowing said dry well to communicate with said suppression-pool water of said suppression chamber in contact therewith to provide a containment vessel which houses said drywell and said suppression chamber; and an outer peripheral pool containing a cooling water in contact with the outer peripheral surface of said steel wall; wherein said facility further comprises: 7. A reactor containment facility as claimed in claim 6, further comprising: 8. A reactor containment facility as claimed in claim 6, wherein said steel wall further surrounds said first and second spaces, said cooling means including an air passage formed outside said steel wall. 9. A reactor containment facility as claimed in claim 6, wherein said cooling means includes a recess region formed by extending downwards the outer peripheral section of said second space to be in thermal contact with the cooling water of said outer peripheral pool. 10. A reactor containment facility as claimed in claim 6, further comprising: 11. A reactor containment facility as claimed in claim 6, further comprising: 12. A reactor containment facility comprising: a reactor pressure vessel containing a core; a drywell in which said reactor pressure vessel is arranged; a containment vessel housing said dry well; means defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; and passage means allowing said dry well to communicate with said suppression-pool water; wherein said facility further comprises: 13. A reactor containment facility as claimed in 12, further comprising: 14. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; means defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; a plurality of vent pipes allowing said dry well to communicate with said suppression-pool water; a steel wall which surrounds at least the suppression-pool water of said suppression chamber in contact therewith to provide a containment vessel which houses said dry well and said suppression chamber; and an outer peripheral pool containing a cooling water in contact with the outer peripheral surface of said steel wall; wherein said facility further comprises: 15. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; a containment vessel housing said dry well; means defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water a wet well; and passage means allowing said dry well to communicate with said suppression-pool water; wherein said facility further comprises: 16. A reactor containment facility as claimed in claim 15, further comprising: 17. A reactor containment facility comprising: a reactor pressure vessel containing a core; a drywell in which said reactor pressure vessel is arranged; a containment vessel housing said dry well; means defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; and passage means allowing said dry well to communicate with said suppression-pool water; wherein said facility further comprises: 18. A reactor containment facility as claimed in claim 17, further comprising: 19. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; means defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; a plurality of vent pipes allowing said dry well to communicate with said suppression-pool water; a steel wall which surrounds at least the suppression-pool water of said suppression chamber in contact therewith to provide a containment vessel which houses said dry well and said suppression chamber; and an outer peripheral pool containing a cooling water in contact with the outer peripheral surface of said steel wall; wherein said facility further comprises: 20. A reactor containment facility as claimed in claim 19, wherein the difference in height between said upper opening and the outlets of said vent pipes is larger than the difference in height between the outlets of said vent pipes and said lower opening. 21. A reactor containment facility as claimed in claim 19, wherein said convection promoting pipe includes upper and lower header pipes respectively arranged at upper and lower positions in said outer peripheral pool and a plurality of heat transfer pipes allowing said upper and lower header pipes to communicate with each other. 22. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; means defining a first suppression chamber holding a suppression-pool water and forming, in the space above the same, a wet well; a plurality of first vent pipes allowing said dry well to communicate with said suppression-pool water; a steel wall which surrounds at least the suppression-pool water of said suppression chamber contact therewith to provide a containment vessel which houses said dry well and said first suppression chamber; an outer peripheral pool containing a cooling water in contact with the outer peripheral surface of said steel wall; and an emergency core cooling system adapted to cool the core by supplying a water into said pressure vessel at the time of a loss-of-coolant accident; 23. A reactor containment facility as claimed in claim 22, wherein the amount of coolant stored in a water source of said emergency core cooling system is set such as to be substantially equal to the sum of the amount of coolant needed for raising the water level in the dry well up to said core submerging level and the amount of coolant required for making the water level of said suppression-pool water equal to said core submerging level. 24. A reactor containment facility as claimed in claim 22, wherein a structure for reducing the amount of coolant when the water level in said dry well has been raised to said core submerging level is provided in that portion of the space in said dry well which is below said core submerging level. 25. A reactor containment facility as claimed in claim 22, further comprising means defining a second suppression chamber situated above said first suppression chamber and including a suppression pool containing pool water, said suppression pool communicating with said dry well through a plurality of second vent pipes, said second suppression chamber being connected with said reactor pressure vessel through a line equipped with a valve for allowing the pool water of the second suppression chamber to be used as a water source for said emergency core cooling system. 26. A reactor containment facility as claimed in claim 25, wherein the amount of coolant of said second suppression chamber is set such as to be substantially equal to the sum of the amount of coolant needed for raising the water level in the dry well up to said core submerging level and the amount of coolant required for making the water level of said suppression-pool water equal to said core submerging level. 27. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; a first suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; a plurality of first vent pipes allowing said dry well to communicate with said pool water; a steel wall which surrounds at least the suppression-pool water of said suppression chamber in contact therewith to provide a containment vessel which houses said dry well and said first suppression chamber; and an outer peripheral pool containing cooling water in contact with the outer peripheral surface of said steel wall; wherein said facility further comprises: 28. A reactor containment facility as claimed in claim 27, wherein the height of the dry-well-side openings of said first vent pipes is set at a level substantially equal to a core submerging level which is that water-level in the dry well at which submergence cooling of said core can be effected with the water in the dry well, having overflowed from said reactor pressure vessel and accumulated in the dry well at the time of a loss-of-coolant accident. 29. A reactor containment facility as claimed in claim 28, wherein the amount of coolant of said second suppression chamber is set such as to be substantially equal to the sum of the amount of coolant needed for raising the water level in the dry well up to said core submerging level and the amount of coolant required for making the water level of said suppression-pool water equal to said core submerging level. 30. A reactor containment facility comprising: a reactor pressure vessel containing a core; a dry well in which said reactor pressure vessel is arranged; mean defining a suppression chamber holding a suppression-pool water and forming, in the space above the suppression-pool water, a wet well; a plurality of vent pipes allowing said dry well to communicate with said suppression-pool water; a steel wall which surrounds at least the suppression-pool water of said suppression chamber in contact therewith to provide a containment vessel which houses said dry well and said suppression chamber; an outer peripheral pool containing cooling water in contact with the outer peripheral surface of said steel wall; and an emergency core cooling system adapted to cool the core by supplying water into said pressure vessel at the time of a loss-of-coolant accident; wherein said facility further comprises: 31. A reactor containment facility as claimed in claim 30, wherein the opening in said suppression-pool water of said equalizing means is near the water surface of the pool water. 32. A reactor containment facility as claimed in claim 30, wherein said equalizing means includes: a first equalizing line connecting said suppression-pool water with said pressure vessel; a second equalizing line branching off from said first equalizing line and opening at a position below said dry well; an isolation valve provided between a point at which said first equalizing line is connected with said pressure vessel and a branching point at which said second equalizing line branches off; and check valves respectively provided in said first and second equalizing lines, said check valve in the first equalizing line being positioned between said branching point and the point at which the first equalizing line is connected with said suppression-pool water. 33. A reactor containment facility as claimed in claim 32, wherein the opening in said suppression-pool water of said first equalizing line is near the water surface of the suppression-pool water. 34. A reactor containment facility as claimed in claim 32, further comprising: 35. A reactor containment facility as claimed in claim 32, wherein said isolation valve comprises a blasting valve or an electrically operated valve. 36. A reactor containment facility as claimed in claim 32, wherein said first and second equalizing lines are respectively equipped with each two of said isolation valves and check valves arranged in parallel.