Patent Number: 051587424
Section: claims

1. A reactor steam isolation cooling system comprising: a containment building having a containment wall;  a reactor pressure vessel disposed inside said containment building and including a nuclear reactor core therein operable for generating reactor steam;  an isolation pool disposed outside said containment building and adjacent to said containment wall and containing pool water, said isolation pool including a vent disposed in flow communication with an atmosphere outside said containment building;  an isolation condenser including:  means for selectively channeling said reactor steam from said pressure vessel between said hot tubes of said evaporator assembly for removing heat therefrom to form reactor condensate.  a shell surrounding said evaporator assembly inside said containment building and sealingly joined to said tube sheet, said shell including a shell inlet for receiving said reactor steam, and a shell outlet; and  a plurality of alternating, spaced apart baffles slidingly joined to said hot tubes to form a serpentine flow passage for channeling said reactor steam from said shell inlet transversely back and forth across said hot tubes for absorbing heat therefrom to condense said reactor steam and form said reactor condensate dischargeable from said shell outlet.  an inlet conduit disposed in flow communication between said pressure vessel and said shell inlet for selectively channeling said reactor steam to said shell, and including a selectively openable and closable shutoff inlet valve; and  an outlet conduit disposed in flow communication between said shell outlet and said pressure vessel for returning said reactor condensate to said pressure vessel.  said outlet conduit includes a steam trap for preventing flow of said reactor steam therethrough while allowing flow of said reactor condensate therethrough; and  said outlet conduit is disposed in flow communication with said inlet conduit between said inlet valve and said shell inlet.  said tube sheet has a plurality of apertures extending therethrough;  each of said hot and cold tubes has a proximal end and a distal end; and  said proximal ends of said hot and cold tubes are fixedly and sealingly joined to said tube sheet.  said hot tubes extend upwardly through said tube sheet apertures with said proximal ends thereof being spaced above a top surface of said tube sheet, and said hot tubes are welded to said top surface of said tube sheet; and  said cold tube proximal ends extend downwardly inside said hot tubes, and said cold tubes are welded to said hot tube proximal ends. 2. A system according to claim 1 further comprising: 3. A system according to claim 2 wherein said hot tubes are disposed vertically inside said containment building, and said cold tubes are primarily inclined inside said isolation pool. 4. A system according to claim 3 further comprising: 5. A system according to claim 4 wherein said inlet valve is normally open so that upon failure of power thereto said inlet valve is open, and upon providing power thereto said inlet valve is closed. 6. A system according to claim 5 wherein said outlet conduit includes a selectively openable and closable shutoff outlet valve; and said inlet and outlet conduits are disposed in parallel between said pressure vessel and said shell. 7. A system according to claim 5 wherein: 8. A system according to claim 2 wherein: 9. A system according to claim 8 wherein said hot and cold tube proximal ends extend into said tube sheet apertures and are spaced from each other, and said hot and cold tubes are welded to said tube sheet at respective surfaces thereof. 10. A system according to claim 8 wherein: