A method of operating a sterilizer includes imaging a load of instruments to obtain an optical image and/or thermal image of the load, and selecting a sterilization cycle to be performed by the sterilizer based on one or more characteristics of the load determined from the image of the load. The characteristics may include the number of instruments, the presence of a diffusion-restricted space, the volume of the load, and the temperature of the load. The method may further include adjusting the sterilization cycle based on the characteristics of the load.

A sterilization and air purification control system and a mounting structure of a waste disposer include a bottom mounting housing and a disposer main machine and a sterilization module. The sterilization module includes an ozone generator driver, a negative oxygen ion generator and an exhaust mechanism. The bottom mounting housing is an accommodating housing and is detachably mounted at a bottom portion of the disposer main machine, an outer edge of the bottom mounting housing is provided with a light strip, the exhaust mechanism is fixedly connected to an inside of one side surface of the bottom mounting housing, and the exhaust mechanism communicates with inner and outer sides of the bottom mounting housing.

The present disclosure provides a hydrogen peroxide sterilization sensor and method of use. The sensor includes: at least one thermal indicator component independently selected from an electronic thermal sensor, an irreversible temperature indicator, and a heat-shrinkable film; a reactant-functional porous sorbent in thermal contact (which may or may not be direct physical contact) with the at least one thermal indicator component; and a reactant comprising a material that reacts exothermically with hydrogen peroxide. The reactant is impregnated in the porous sorbent. The method includes: providing a hydrogen peroxide sterilization sensor; allowing hydrogen peroxide to contact the reactant to generate thermal energy sufficient to cause a response from the at least one thermal indicator component; and detecting that conditions for the hydrogen peroxide sterilization have been met.

An ozone conveyor includes a conveyor belt extending through an elongated enclosure. The conveyor also includes an aqueous ozone section with an aqueous ozone applicator mounted next to the conveyor belt and a gaseous ozone section with a gaseous ozone applicator mounted next to the conveyor belt. One or more exhaust ports are configured to connect to an exhaust system for removing gaseous ozone from the enclosure. An ozone disinfection system includes a dual zone ozone generator and an exhaust system operably coupled with an ozone conveyor. The dual zone ozone generator includes an ozone generator that produces gaseous ozone and an ozone injector for producing aqueous ozone. A method for disinfecting with ozone includes applying aqueous and gaseous ozone to a product and maintaining a net negative air pressure to reduce the likelihood of ozonated air leaks.

The present disclosure provides an ethylene oxide sterilization sensor and method of use. The sensor includes: at least one thermal indicator component independently selected from an electronic thermal sensor, an irreversible temperature indicator, and a heat-shrinkable film; an acid-functional porous sorbent or an acid-functional nonwoven fibrous substrate in thermal contact with the at least one thermal indicator component; and an acid having a boiling point above 120° C. and a pKa of no greater than 2.5. The acid is impregnated in or covalently attached to the porous sorbent or is covalently attached to the nonwoven fibrous substrate. The sensor includes at least one of the electronic thermal sensor, the irreversible temperature indicator, or the acid-functional nonwoven fibrous substrate.

A system for sterilizing a drug delivery device includes a drug delivery device having a first self-healing seal configured to seal a fluid reservoir disposed within the drug delivery device. A sealable container is configured to receive the drug delivery device therein. The sealable container has a base portion and a cover portion. The cover portion has a second self-healing seal positioned to align with the first self-healing seal when the drug delivery device is disposed within the sealable container. A fill port includes a fill path, the fill path being configured to pass through the first and second self-healing seals to fluidly couple the fill port to the reservoir of the drug delivery device. Other systems, methods, and devices of sterilization are also disclosed.

A sterilization system for sterilizing an article is disclosed. The sterilization system may include a hydrogen peroxide generation system configured to generate hydrogen peroxide, a hydroxyl generation system configured to produce a flow of hydroxyl radicals that causes deterioration of the hydrogen peroxide to produce hydroxyl ions, and a sterilization chamber configured to expose the article to the hydroxyl ions to sterilize the article. Additionally, methods for sterilizing articles are disclosed. Those methods may include generating hydrogen peroxide, producing a flow of hydroxyl radicals that causes deterioration of the hydrogen peroxide to produce hydroxyl ions, and exposing the article to the hydroxyl ions to sterilize the article.

A sterilization system for sterilizing an article is disclosed. The sterilization system may include a hydrogen peroxide generation system configured to generate hydrogen peroxide, a hydroxyl generation system configured to produce a flow of hydroxyl radicals that causes deterioration of the hydrogen peroxide to produce hydroxyl ions, and a sterilization chamber configured to expose the article to the hydroxyl ions to sterilize the article. Additionally, methods for sterilizing articles are disclosed. Those methods may include generating hydrogen peroxide, producing a flow of hydroxyl radicals that causes deterioration of the hydrogen peroxide to produce hydroxyl ions, and exposing the article to the hydroxyl ions to sterilize the article.

Systems are disclosed which include processor-executable program instructions for receiving data regarding characteristics of an area or a room and determining, based on the received data, operating parameter/s for one or more disinfection sources to disinfect the area/room. The data may include data regarding non-physical characteristics and/or physical characteristics of the area/room. In some embodiments, data regarding a quantity and/or type of at least a subset of the plurality of disinfection sources for disinfecting the room may also be considered for determining the operating parameter/s. In addition or alternatively, the data may be in relation to multiple disinfection sources in the area/room. In any case, a system is also disclosed which facilities power redirection among multiple disinfection sources upon detecting a given area has received a predetermined dose of ultraviolet light.

Seal integrity indicators for sterilization containers are provided. For example, a seal indicator may indicate whether the container is sufficiently sealed to prevent an ingress of contaminants into the container. If the container is sufficiently sealed, the seal indicator is visible, but if not, the seal indicator is not visible. Thus, the seal indicator undergoes a change in state when the sterilization container transitions from unsealed to sealed, or vice versa, such that a user may ascertain whether the container is properly sealed to maintain the container's sterility. An exemplary seal indicator includes an invertible projection formed with the container gasket that is not visible from outside the container until inverted, due to force applied by the lid, to extend through an opening in the container body. Closure mechanisms for sterilization containers also are provided.