Patent Number: 062467395
Section: claims

1. An aerosol retention apparatus for capturing aerosols passing through a vent, said retention apparatus comprising: a housing comprising a first end and a second end, said housing comprising a substantially cylindrical shape;  at least one attachment bar disposed inside said housing, said at least one attachment bar comprising a first end and a second end, said first and said second end of said at least one attachment bar coupled to said housing; and  a flow modulator positioned inside said housing and mounted to said at least one attachment bar, said modulator extending at least partially from said first end to said second end of said housing, said flow modulator comprising a helically shaped baffle having a diameter less then an inside diameter of said housing.  a reactor pressure vessel;  an upper and a lower drywell separated by a reactor pressure vessel support;  a plurality of connecting vents extending through and located circumferentially around said reactor pressure vessel support, said connecting vents providing flow communication between said upper and lower drywells; and  a plurality of passive aerosol retention apparatus positioned in said connecting vents, each said aerosol retention device positioned in a separate connecting vent, and each said aerosol retention device comprising: 2. An aerosol retention apparatus in accordance with claim 1 wherein an angle formed by the intersection of said helical baffle and a radial plane is about 30 to about 60 degrees, said radial plane perpendicular to a longitudinal plane passing through the longitudinal axis of said housing. 3. An aerosol retention apparatus in accordance with claim 1 further comprising a plurality of baffle plates extending inwardly from an inside surface of said housing, said baffle plates spaced axially and longitudinally from each other. 4. An aerosol retention apparatus in accordance with claim 3 wherein said baffle plates are arced segments, said segments ranging from about 90 to about 120 degrees as measured from the longitudinal axis. 5. An aerosol retention apparatus in accordance with claim 4 wherein each said baffle plates extends from said inside surface of said housing so as to be within a radial plane perpendicular to a longitudinal plane passing through the longitudinal axis of said housing. 6. An aerosol retention apparatus in accordance with claim 3 wherein said helical baffle is located in a first portion of said cylindrical housing, and said plurality of baffle plates are located in a second portion of said housing, said first housing portion extending from said first end of said housing to said second portion, said second housing portion extending from said second end of said housing to said first portion. 7. An aerosol retention apparatus in accordance with claim 6 wherein said helical baffle is replaced by an inlet swirler comprising a central conical shaped section and a plurality of baffles extending from said central conical shaped section. 8. An aerosol retention apparatus in accordance with claim 7 wherein the diameter of said first end of said housing is less than the diameter of said second portion of said housing. 9. A nuclear reactor comprising: 10. A nuclear reactor in accordance with claim 9 wherein said aerosol retention apparatus housing comprises said connecting vent sidewall. 11. A nuclear reactor in accordance with claim 9 wherein an angle formed by the intersection of said helical baffle and a radial plane is about 30 to about 60 degrees, said radial plane perpendicular to a longitudinal plane passing through the longitudinal axis of said housing. 12. A nuclear reactor in accordance with claim 9 wherein said housing comprises a substantially cylindrical shape, and the diameter of said helical baffle is less than the inside diameter of said housing. 13. A nuclear reactor in accordance with claim 12 wherein said aerosol retention apparatus further comprises a plurality of baffle plates extending inwardly from said inside surface of said housing, said baffle plates spaced axially and longitudinally from each other. 14. A nuclear reactor in accordance with claim 13 wherein said baffle plates are arced segments, said segments ranging from about 90 to about 120 degrees as measured from the longitudinal axis. 15. A nuclear reactor in accordance with claim 14 wherein each said baffle plates extends from said inside surface of said housing so as to be within a radial plane perpendicular to a longitudinal plane passing through the longitudinal axis of said housing. 16. A nuclear reactor in accordance with claim 13 wherein said helical baffle is located in a first portion of said cylindrical housing, and said plurality of baffle plates are located in a second portion of said housing, said first housing portion extending from said first end of said housing to said second portion, said second housing portion extending from said second end of said housing to said first portion. 17. A nuclear reactor in accordance with claim 16 wherein said helical baffle is replaced by an inlet swirler comprising a central conical shaped section and a plurality of baffles extending from said central conical shaped section. 18. A nuclear reactor in accordance with claim 17 wherein the diameter of said first end of said housing is less than the diameter of said second portion of said housing.