Peroxyformic acid compositions for removal of biofilm growth and other contaminants and impurities from industrial processing hard surfaces are disclosed. In particular, peroxyformic acid compositions may be dosed on site and/or generated in situ for the reduction and prevention of biofilms on the hard surfaces. Methods of employing the peroxyformic acid compositions for removal of biofilm growth and other impurities such as aldehydes and alcohols from industrial CO.sub.2 effluent are also disclosed which beneficially provide ambient biofilm control and break down more rapidly than other peracids, allowing for extended runs between CIP cleaning, including a reduction and/or elimination of cleaning of the scrubbers and other industrial surfaces.

A system for applying a lavage fluid to a surface, the system having a body for housing a lavage fluid, an application member in fluid communication with the body, the application member being configured to dispense the lavage fluid along a flow path, and a venting component, the venting component having a fluid channel configured to provide fluid communication between the body and an external environment, and at least one filter provided relative to the fluid channel sufficient to filter gas, such as air, passing through the fluid channel, at least a portion of the fluid channel being separate from the flow path.

A device capable of stably obtaining gas of a sterilizer containing hydrogen peroxide for a long time is provided. A cleaning device that cleans a heating surface that gasifies a sterilizer of a gasifier for a sterilizer is provided, and after an operation for a fixed time period, the heating surface is cleaned.

The invention relates to a method for disinfecting surfaces comprising providing an active solution comprising the reactants H.sub.2O.sub.2 and NO.sub.2.sup.-, wherein the active solution comprises at least one stopping agent, wherein the stopping agent is a solvent having a boiling temperature below 100° C. Furthermore, the invention relates to a device for the application of this process.

A sterilizing method for sterilizing a sterilization object housed in a chamber (11) includes a first vapor injection step (S104) of injecting vapor produced from a first aqueous solution of hydrogen peroxide to the inside of the chamber (11), an ozone injection step (S107) of injecting ozone gas to the inside of the chamber (11) after the first vapor injection step (S104), and a second vapor injection step (S109) of injecting vapor produced from pure water or vapor produced from a second aqueous solution of hydrogen peroxide to the inside of the chamber (11) after the ozone injection step (S107).

A method for decontaminating a low-temperature article, the method comprising: an applying step including applying a decontamination agent to external surfaces of a low-temperature article and supplying a mist of decontamination agent to a first external surface of said low-temperature article to form a condensed film of the decontamination agent on said first external surface; and a drying step including ultrasonically vibrating vibration boards disposed on a periphery of the low-temperature article to generate sound flows from board surfaces by an ultrasound in a vertical direction, irradiating with ultrasonic waves the low-temperature article with the decontamination agent applied thereto, subjecting said first external surface of the low-temperature article to ultrasonic vibration and acoustic radiation pressure, supplying dry air to the first external surface and drying said first external surface.

A method of decontaminating an aseptic filling apparatus that includes stations including a content filling station arranged from an upstream side to a downstream side of a flow of a preform or container, and each of the stations is covered by a chamber. The method includes sterilizing the content filling station by performing a CIP and then an SIP or performing an SIP serving also as a CIP of the content filling station, removing a cleaning liquid used in the CIP or SIP, and performing a COP and/or an SOP of the various kinds of stations in a predetermined order. A first SOP using a first sterilizer and a second SOP using a second sterilizer are performed stepwise on the various kinds of stations while the CIP and the SIP or the SIP serving also as the CIP are being performed on the content filling station.

A method of decontaminating an aseptic filling apparatus that includes stations including a content filling station arranged from an upstream side to a downstream side of a flow of a preform or container, and each of the stations is covered by a chamber. The method includes sterilizing the content filling station by performing a CIP and then an SIP or performing an SIP serving also as a CIP of the content filling station, removing a cleaning liquid used in the CIP or SIP, and performing a COP and/or an SOP of the various kinds of stations in a predetermined order. A first SOP using a first sterilizer and a second SOP using a second sterilizer are performed stepwise on the various kinds of stations while the CIP and the SIP or the SIP serving also as the CIP are being performed on the content filling station.

A working disinfectant solution comprising peracetic acid and at least one surfactant, prepared by the dilution of either a single-part or two-part concentrate for use in the disinfection or sterilisation of reusable medical devices such as endoscopes. The working solution exhibits rapid wetting characterised by a dynamic surface tension of less than 50 mN/m at 250 ms and 46 mN/m at 500 ms.

Treatment systems, devices, articles, and associated methods of operation for treating open wounds are disclosed herein. In one embodiment, a method includes applying a first material and a second material to be in contact with a surface of the open wound having a water content at the surface and applying a voltage differential to the first and second materials, thereby producing hydrogen peroxide (H2O2) at the surface via an electrochemical reaction between oxygen (O2) in air and water (H2O) in the water content at the surface. The voltage differential is calibrated to correspond to a concentration of the produced hydrogen peroxide in the water content effective in reducing or preventing a bacterial infection at the surface of the open wound.