The present invention concerns a hood for handling and confinement of at least two objects of slender shape, including an external enclosure and internal enclosures inside the external enclosure and at least one motor fixed above an internal enclosure and inside a barrel, the motor(s) being adapted to rotate the screw of the screw-nut mechanism of each internal enclosure and therefore the nut over a stroke A, and first and second mechanical control means, arranged in part above the cover of the external enclosure, respectively for manually guiding the internal enclosures in translation over a stroke A0 and manually pivoting the barrel in order to bring a holding member of one of the internal enclosures opposite the opening in the bottom of the external enclosure. Application to the handling and confinement of nuclear material sample holders.

The invention relates to a connection system for connecting an inside environment of a compartment to an environment outside said compartment, said compartment being isolated relative to the outside environment and said connection system, said connection system comprising a blocking device.

A modularized system for processing, storing and/or disposing of a hazardous waste material is described. In one exemplary embodiment, the modularized system includes a container configured to sealingly contain hazardous waste material; a first cell, the first cell comprising a first area for manipulating the container; and a second cell, the second cell comprising a second area for manipulating the container. The second cell is isolated from the first cell. The first cell is held at a first pressure and the second cell held at a second pressure, the first pressure being less than the second pressure. An interlock couples the first cell to the second cell. The first cell, second cell and interlock are configured to allow the container to be transferred from the first cell to the second cell while maintaining at least one seal between the first cell and the second cell.

A modularized system for processing, storing and/or disposing of a hazardous waste material is described. In one exemplary embodiment, the modularized system includes a container configured to sealingly contain hazardous waste material; a first cell, the first cell comprising a first area for manipulating the container; and a second cell, the second cell comprising a second area for manipulating the container. The second cell is isolated from the first cell. The first cell is held at a first pressure and the second cell held at a second pressure, the first pressure being less than the second pressure. An interlock couples the first cell to the second cell. The first cell, second cell and interlock are configured to allow the container to be transferred from the first cell to the second cell while maintaining at least one seal between the first cell and the second cell.

Provided herein is technology relating to controlling radiation and protecting biological organisms from exposure to radiation and particularly, but not exclusively, to apparatuses, methods, and systems for minimizing and/or eliminating exposure of humans to stray radiation used for medical imaging and therapy.

A system includes a radiation containment chamber, an isolator connected to the radiation containment chamber, a rotating transfer door positioned between the radiation containment chamber and the isolator, and an antimicrobial vapor generator connected to the isolator. The rotating transfer door includes a cavity for receiving a radionuclide generator column assembly, and is rotatable between a first position, in which the cavity is open to the radiation containment chamber, and a second position, in which the cavity is open to the isolator. The transfer door is adapted to rotate while antimicrobial vapor is introduced into the isolator by the antimicrobial vapor generator.

Embodiments of the present disclosure are directed to systems, components, and methods for transferring canisters containing radioactive material, for example, from a container assembly using a transfer assembly to a horizontal storage module (HSM). Systems in accordance with various embodiments of the present disclosure include, for example, a vertical to horizontal (VTH) transfer station for a canister and method of transfer, a horizontal to horizontal (HTH) transfer station for a canister and methods of transfer, a transport wagon system for transporting a canister to a horizontal storage module (HSM), and an HSM system for long-term storage of a canister.

A mobile radiation oncology coach system is disclosed. The mobile radiation oncology coach system comprise a trailer having a control console area and a treatment area, the treatment area is equipped with a medical treatment facility. The mobile radiation oncology coach system further comprise an internal shielding provided between the control console area and the treatment area. The mobile radiation oncology coach system further comprise an external shielding provided at the outside of the trailer.

A mobile radiation oncology coach system is disclosed. The mobile radiation oncology coach system comprise a trailer having a control console area and a treatment area, the treatment area is equipped with a medical treatment facility. The mobile radiation oncology coach system further comprise an internal shielding provided between the control console area and the treatment area. The mobile radiation oncology coach system further comprise an external shielding provided at the outside of the trailer.

A door device for connecting a container having a container flange with a plurality of radial flanges distributed around its circumference to an isolation chamber includes a door reversibly movable from a closed position, in which it closes a passage opening of the door device, to an open position, in which it uncovers the passage opening, and an interface of a closure, in particular a first bayonet closure for fastening a lid attached to the container. The device further includes a frame having axial grooves for receiving the radial flanges of the container and a cover reversibly movable from an insertion position in which it releases the axial grooves for insertion and withdrawal of the radial flanges to a locking position in which it locks the axial grooves against withdrawal of the radial flanges to lock the container to the door device.