Patent Number: 
Section: claims

1. A vacuum cleaner apparatus for fissile material comprising:a single unit elongate vacuum cleaner assembled along a centerline axis and configured for the separation and recovery of a fissile material entrained in an airflow, the vacuum cleaner having:a housing having an outer wall having an outer wall surface and an inner wall surface defining an internal housing chamber, the housing also including a top end having a top opening, a bottom end having a bottom opening, and a radial intake port opening disposed in the outer wall proximate the bottom end;a suction apparatus having:an intake disposed at the intake port opening and having a hose connection means for mating with a vacuum hose assembly;a flow-through fan disposed in the top opening of the housing and having an intake and an exhaust, the flow-through fan configured to intake and exhaust the airflow in a direction parallel with the centerline axis;container connection means disposed at the bottom opening for connecting an external container to bottom end of the housing; anda first cylindrical free space having a center point disposed along the centerline axis and a diameter passing through the center point, wherein the vacuum cleaner apparatus is sized to fit entirely within the diameter of the first free space, and wherein the diameter of the first cylindrical free space is less than or equal to maximum sub-critical diameter of a cylinder of the fissile material. 2. The apparatus of claim 1 further comprising a first baffle having a bottom surface and a top surface joined at a baffle centerline, wherein the first baffle is sized and configured to obstruct a first half of an airflow path through the internal housing chamber and wherein the bottom surface is configured to redirect the airflow in a first direction towards the inner wall surface. 3. The apparatus of claim 2 further comprising a second baffle having a bottom surface and a top surface joined at a baffle centerline, wherein the second baffle is sized and configured to obstruct a second half of the airflow path through the internal housing chamber such that the first and second baffles, in combination, obstruct both halves of the airflow path when viewed along the centerline axis and wherein the bottom surface is configured to redirect the airflow in a second direction towards the inner wall surface. 4. The apparatus of claim 1 further comprising a third baffle configured to direct the airflow to the intake of the fan through a funnel action, the third baffle having:a lower sidewall portion having a bottom surface and one or more bottom airflow openings disposed in the bottom surface that extend through the lower portion;a middle sidewall forming a cone region having a top opening and a hollow interior in flow communication with the one or more bottom airflow openings; andan upper sidewall extending away from an external surface of the middle sidewall, a portion of the upper sidewall configured to contact the inner wall surface of the housing. 5. The apparatus of claim 1 further comprising:a fixed first filter support mounted within the internal housing chamber and configured to support a bottom portion of a filter; anda removable second filter support configured to support a top portion of a filter. 6. The apparatus of claim 5 further comprising a third baffle configured to direct the airflow to the intake of the fan through a funnel action, the third baffle having:a lower sidewall portion having a bottom surface and one or more bottom airflow openings disposed in the bottom surface that extend through the lower portion;a middle sidewall forming a cone region having a top opening and a hollow interior in flow communication with the one or more bottom airflow openings; andan upper sidewall extending away from an external surface of the middle sidewall, a portion of the upper sidewall configured to contact the inner wall surface of the housing;wherein the removable second filter support includes a seat disposed in the bottom surface of the lower sidewall. 7. The apparatus of claim 5 wherein the vacuum cleaner is configured so that it may not be placed into an operational state when the bottom of the filter is not properly seated within the first filter support or the top of the filter is not properly seated within the second filter support. 8. The apparatus of claim 1 further comprising a fan housing configured to mount to the fan and having a diffuser assembly comprising a plurality of stationary angled vents that are arranged to cover at least a portion of the exhaust of the fan. 9. The apparatus of claim 1 wherein the vacuum cleaner is configured for the separation of solids or liquids. 10. The apparatus of claim 1 wherein the intake includes:a flange disposed on the inside of the housing chamber surrounding the intake port opening;a first extension portion extending from the flange into the internal housing chamber that is configured to direct the airflow towards the bottom end of the vacuum housing; anda second extension portion extending from the flange outwards into the intake port opening, the second extension portion having a hose connection means for mating with a vacuum hose assembly. 11. The apparatus of claim 1 wherein the suction apparatus is at least partially removable from the housing. 12. The apparatus of claim 1 further comprising a spacer having:a cage having an outer contact surface; anda second cylindrical free space having a center point disposed along the centerline axis and a diameter passing through the center point, wherein the diameter is greater than or equal to the minimum safe distance between the vacuum cleaner and a second fissile unit external to the vacuum apparatus required to prevent a criticality from occurring between the vacuum and the second fissile unit; andwherein the outer contact surface is located entirely outside of the second cylindrical free space. 13. The apparatus of claim 12 wherein the cage includes:upper and lower spacing members disposed around the vacuum and spaced apart from one another;at least one first support member configured to connect the upper and lower spacing members together;a second support member configured to connect the at least one first support member and the vacuum together. 14. The apparatus of claim 12 further comprising a plurality of rolling members disposed on a bottom surface of the cage to facilitate transport of the cage. 15. The apparatus of claim 1 wherein the suction apparatus is removable from the housing. 16. A vacuum cleaner apparatus comprising:a single unit elongate vacuum cleaner assembled along a centerline axis and configured for the separation and recovery of a fissile material entrained in an airflow, the vacuum cleaner having:a housing having an outer wall having an outer wall surface and an inner wall surface defining an internal housing chamber, the housing also including a top end having a top opening, a bottom end having a bottom opening, and a radial intake port opening disposed in the outer wall proximate the bottom end;a removable suction apparatus having:an intake disposed in the intake port opening, the intake having: a flange disposed on the inside of the housing chamber surrounding the intake port opening; a first extension portion extending from the flange into the internal housing chamber and configured to direct the airflow towards the bottom end of the vacuum housing; and a second extension portion extending from the flange outwards into the intake port opening, the second extension portion having a hose connection means for mating with a vacuum hose assembly;a flow-through fan mounted proximate the top opening and having an intake opening and an exhaust opening, the fan being configured to intake and exhaust the airflow in a direction parallel with the centerline axis;a fan housing configured to mount to the fan and having a diffuser assembly comprising a plurality of stationary angled vents that are arranged to cover at least a portion of the exhaust opening of the fan;a fixed first filter support mounted within the internal housing chamber and configured to support a bottom portion of a filter; anda removable second filter support configured to support a top portion of a filter;a first baffle having a bottom surface and a top surface joined at a baffle centerline, wherein the first baffle is sized and configured to obstruct a first half of an airflow path through the internal housing chamber and wherein the bottom surface is configured to redirect the airflow in a first direction towards the inner wall surface;a second baffle having a bottom surface and a top surface joined at a baffle centerline, wherein the second baffle is sized and configured to obstruct a second half of an airflow path through the internal housing chamber and wherein the bottom surface is configured to redirect the airflow in a second direction towards the inner wall surface;a third baffle configured to direct the airflow to the intake of the fan through a funnel action, the third baffle having:a lower sidewall portion having a bottom surface and one or more bottom airflow openings disposed in the bottom surface that extend through the lower portion;a middle sidewall forming a cone region having a top opening and a hollow interior in flow communication with the one or more bottom airflow openings; andan upper sidewall extending away from an external surface of the middle sidewall, a portion of the upper sidewall configured to contact the inner wall surface of the housing;connection means disposed proximate the bottom opening for connecting an external container to bottom end of the vacuum housing;a first cylindrical free space having a diameter that passes through the centerline axis, wherein the vacuum cleaner apparatus is sized to fit entirely within the diameter of the free space and wherein the diameter of the first cylindrical free space is the maximum sub-critical diameter of a cylinder of the fissile material. 17. The apparatus of claim 16 further comprising a spacer having:a cage having an outer contact surface; anda second cylindrical free space having a center point disposed along the centerline axis and a diameter passing through the center point, wherein the diameter is the minimum safe distance between the vacuum cleaner and a second fissile unit external to the vacuum required to prevent a criticality from occurring between the vacuum and the second fissile unit; andwherein the outer contact surface is located entirely outside of the second cylindrical free space. 18. The apparatus of claim 17 wherein the cage includes:upper and lower spacing members disposed around the vacuum and spaced apart from one another;at least one first support member configured to connect the upper and lower spacing members together;a second support member configured to connect the at least one first support member and the vacuum together.