A step of letting a preform made of resin adsorb a sterilizer, a step of sterilizing the preform by heating the preform having adsorbed the sterilizer to a temperature suitable for a blow-molding treatment to activate the sterilizer adsorbed by the preform and a step of shaping the preform into a bottle by blowing aseptic air into the preform in a mold are performed sequentially. According to the above-mentioned steps, the sterilizer does not enter a blow-molding machine.

A method for sterilizing and decontaminating post-consumer absorbent products polluted with organic compounds derived from human metabolism including drug residues, the post-consumer absorbent sanitary products comprising fractions of plastic, super-absorbent polymers (SAP), and optionally cellulose, the method including at least the steps of: sterilizing (SR) the absorbent sanitary post-consumer products by heating to a temperature equal to or less than 140° C., and to a pressure lower than 4 bar, decontaminating (DC) the post-consumer absorbent sanitary products of organic compounds by treating with an oxidizing composition comprising at least one compound selected from the group consisting of hydrogen peroxide, sodium percarbonate, potassium percarbonate, sodium perborate, potassium perborate, potassium monopersulfate, ammonium persulfate, sodium persulfate, potassium persulfate, and ozone. The at least one compound is contained in the oxidizing composition in an amount equal to or greater than 2% by weight with respect to the dry weight of the post-consumer absorbent sanitary products.

A method for sterilizing and decontaminating post-consumer absorbent products polluted with organic compounds derived from human metabolism including drug residues, the post-consumer absorbent sanitary products comprising fractions of plastic, super-absorbent polymers (SAP), and optionally cellulose, the method including at least the steps of: sterilizing (SR) the absorbent sanitary post-consumer products by heating to a temperature equal to or less than 140° C., and to a pressure lower than 4 bar, decontaminating (DC) the post-consumer absorbent sanitary products of organic compounds by treating with an oxidizing composition comprising at least one compound selected from the group consisting of hydrogen peroxide, sodium percarbonate, potassium percarbonate, sodium perborate, potassium perborate, potassium monopersulfate, ammonium persulfate, sodium persulfate, potassium persulfate, and ozone. The at least one compound is contained in the oxidizing composition in an amount equal to or greater than 2% by weight with respect to the dry weight of the post-consumer absorbent sanitary products.

A device for applying, for a predetermined interval, heated air, which is heated to a pest extermination temperature to a to-be-treated automobile, which is housed in a freely accessible manner in a treatment chamber to exterminate pests inside the automobile includes a circulation fan device arranged in the treatment chamber, a suction part of which is oriented toward the inside of the treatment chamber, a heating member mounted in a discharge part of the circulation fan device, and a rectification member for adjusting the flow direction of the heated air delivered into the chamber via the heating member.

This disclosure relates to a device for disinfecting equipment, such as medical devices, surgical equipment, and/or CPAP components (or, CPAP equipment), including the various parts of a CPAP system, such as hoses, masks, pillows, couplings, humidifiers, etc., that require frequent cleaning and disinfecting. An example device includes a chamber, an ultraviolet (UV) light configured to emit UV light within the chamber, an ozone generator configured to generate ozone within the chamber, and a control unit configured to activate the UV light and the ozone generator simultaneously for a first period of time. A method is also disclosed.

This disclosure relates to a device for disinfecting equipment, such as medical devices, surgical equipment, and/or CPAP components (or, CPAP equipment), including the various parts of a CPAP system, such as hoses, masks, pillows, couplings, humidifiers, etc., that require frequent cleaning and disinfecting. An example device includes a chamber, an ultraviolet (UV) light configured to emit UV light within the chamber, an ozone generator configured to generate ozone within the chamber, and a control unit configured to activate the UV light and the ozone generator simultaneously for a first period of time. A method is also disclosed.

The invention discloses a portable ultraviolet sterilization container, which comprises a sterilization container body, the sterilization container body has an article storage cavity and a cover, and the sterilization container body is further provided with an illumination device, a heating air duct and a control system. The control system is electrically connected to the illumination device and the heating air duct for controlling the illumination device and the heating air duct to release ultraviolet light and hot air to the article storage cavity, wherein the illumination device comprises a plurality of light-emitting devices which are fixed to a plurality of cavity walls of the article storage cavity. The inner circulation of the heating air duct is from the article storage cavity, through the interior of the cavity wall of the article storage cavity, and then to the article storage cavity.

The invention discloses a portable ultraviolet sterilization container, which comprises a sterilization container body, the sterilization container body has an article storage cavity and a cover, and the sterilization container body is further provided with an illumination device, a heating air duct and a control system. The control system is electrically connected to the illumination device and the heating air duct for controlling the illumination device and the heating air duct to release ultraviolet light and hot air to the article storage cavity, wherein the illumination device comprises a plurality of light-emitting devices which are fixed to a plurality of cavity walls of the article storage cavity. The inner circulation of the heating air duct is from the article storage cavity, through the interior of the cavity wall of the article storage cavity, and then to the article storage cavity.

A device and system for sterilizing objects, commonly dental, medical, or veterinary instruments, having a double door configuration that can provide entry of contaminated instruments into a sterilizer from a contaminated area and subsequently, post-sterilization, their pass-through directly into a sterile area through an exit door from said sterilizer. More specifically, the invention is a countertop, high velocity, dry heat sterilization device that is readily adaptable for those clinical areas requiring separation of contaminated and sterile areas for the processing of medical, dental, or veterinary instruments. The sterilization device utilizes a dual airflow pathway and a controlled heat delivery system to deliver to the sterilization chamber the supply air having temperature uniformity and air velocity required of the high velocity dry heat sterilization process.

A device and system for sterilizing objects, commonly dental, medical, or veterinary instruments, having a double door configuration that can provide entry of contaminated instruments into a sterilizer from a contaminated area and subsequently, post-sterilization, their pass-through directly into a sterile area through an exit door from said sterilizer. More specifically, the invention is a countertop, high velocity, dry heat sterilization device that is readily adaptable for those clinical areas requiring separation of contaminated and sterile areas for the processing of medical, dental, or veterinary instruments. The sterilization device utilizes a dual airflow pathway and a controlled heat delivery system to deliver to the sterilization chamber the supply air having temperature uniformity and air velocity required of the high velocity dry heat sterilization process.