Provided herein is a method of treating material that is contaminated with a virus, comprising exposing the material to vapor, wherein the vapor is produced by heating and/or vaporizing a dry cleaning solvent, and wherein the method at least partially deactivates the virus.

A cap sterilizer (50) includes an infeed chamber (52), a sterilant atomizing chamber (53), and an air rinse chamber (54). At least the infeed chamber (52) and the air rinse chamber (54) are exhausted. Both an exhaust pressure (E2) in the infeed chamber (52) and an exhaust pressure (E4) in the air rinse chamber are higher than an exhaust pressure (E3) in the sterilant atomizing chamber (53), or the sterilant atomizing chamber (53) is not exhausted.

An automatic floor-disinfection robot for floors of hospital rooms, including a moving device, a alarm and a disinfection device. The moving device is a disc-shaped robot, and includes a chassis moving mechanism, a support plate and a top plate arranged successively from bottom to top. The disinfection device includes a disinfection assembly and a baffle. The disinfection assembly includes a liquid supply mechanism, a liquid spray mechanism and a fan.

Articles, compositions, and methods for treating textiles and other materials with an antimicrobial compound during laundry and/or drying cycles are described. The articles and compositions include a metal ion having antimicrobial efficacy. Methods include the use of the articles and compositions in laundry and/or drying cycles to provide antimicrobial treatment of the textiles and materials.

A rotatable surface apparatus for a vehicle includes a frame including a contact surface, a cover having at least a first surface portion and a second surface portion, a rotating mechanism rotating the cover to selectively position not more than one of the first surface portion and the second surface portion over the contact surface of the frame simultaneously, and a sanitizing mechanism sanitizing the first surface portion and the second surface portion of the cover when positioned within a predetermined proximity of the sanitizing mechanism.

A retractable sanitizing apparatus for a vehicle including a return station, a sanitizing mechanism positionable between a first sanitizing position, a second sanitizing position, and a stowed position, the sanitizing mechanism positioned at the return station when in the stowed position, and a linkage member connecting the sanitizing mechanism to the return station and positioning the sanitizing mechanism between the first sanitizing position and the second sanitizing position, wherein the sanitizing mechanism sanitizes a surface of the vehicle as the sanitizing mechanism moves from the first sanitizing position to the second sanitizing position and across the surface of the vehicle.

The present invention relates to a device for decontaminating persons, having a container having at least one decontamination shower, the container having at least one panel defined in an opening in one of the vertical walls of the container, the panel being mounted to pivot around a horizontal hinge which joins an upper edge of the panel to the container so as to be movable between a first position in which the panel extends substantially vertically and closes off the opening, and a second position in which the panel extends substantially horizontally and forms a ceiling covering a sheltered surface. The decontamination device also includes walls capable of closing off the sheltered surface to form at least one portion of the decontamination device.

The invention relates to a mobile decontamination unit for thorough wet decontamination of persons, having a generally rectangular parallelepiped shape with a longitudinal axis and a transverse axis. The unit comprises a technical module and at least one shower module, which are adjacent to one another in the direction of the longitudinal axis. The unit also comprises a first retractable extension of the shower module in the direction of the transverse axis, on one side of said shower module, and/or a second retractable extension of the shower module in said direction of the transverse axis, on the other side of said shower module. The shower module and the one or more extensions comprise a decontamination line for persons for the circulation, in the direction of the transverse axis, of persons to be decontaminated by showering in the shower module.

Peroxyformic acid compositions for treatment and removal of biofilm growth and mineral deposits on membranes for energy services applications are disclosed. In particular, peroxyformic acid compositions are generated in situ or on site generation for the reduction and prevention, of biofilms and the mitigation of mineral buildup on the membranes. The compositions according to the invention are compatible with the membranes under application of use conditions.

A device to couple a vascular access device to a medical device may include a body, a spring, and a housing. The body may include a distal end, a proximal end, and a lumen extending through the distal end and the proximal end. The proximal end of the body may include a connector. The housing may be coupled to a proximal end of the spring and may enclose the connector. A distal end of the spring may be coupled to the body. The housing may include a flap, which may include an antimicrobial compound. When the housing is disposed in a proximal position, the flap may cover the connector, the antimicrobial compound may contact the connector, and the spring may be uncompressed. In response to movement of the housing from the proximal position to a distal position, the spring may be compressed and the flap may open.