An apparatus and method for reprocessing a medical device includes a decontamination basin, a first flush conduit, a second flush conduit, and a manifold. The first and second flush conduits have respective first and second coupling ports configured to fluidly connect to the medical device positioned within the decontamination basin. The manifold is fluidly connected to the first and second flush conduits and configured to distribute the fluid received therein accordingly. The apparatus also includes a first valve, a second valve, and a primary pump configured to discharge the fluid into the manifold at a predetermined supply flow rate. The first and second valve are positioned respectively in the first and second flush conduits for balancing the respective flow rates discharged therefrom at a first predetermined conduit flow rate and a second predetermined conduit flow rate.

A cleaning system and method includes suspending and exploding, adjacent a bank of HRSG finned-tubing, a plurality of generally uniformly spaced detonation cords. Each detonation cord has an explosive grain loading of 18-50 grains per foot. A detonation delay assembly attached to each of the plurality of detonation cords creates a predetermined delay between each detonation cord explosion. After the detonation cords are exploded, a suspended elongated beam, having a transport assembly and a pressurized air blower assembly directs pressurized air towards an adjacent the bank of HRSG finned-tubing as the pressurized air blower assembly is moved along a portion of the beam. A suspension assembly moves the beam, the transport assembly, and the pressurized air blower assembly up or down so that a next portion of the bank of HRSG finned-tubing may be cleaned by the pressurized air.

A system for the maintenance and operation of an air-cooled heat exchanger (ACHE) includes a plurality of spray tubes provided with spaced-apart nozzles permanently positioned between the finned heat exchange tubes and longitudinally aligned within the region of the finned-tube pitch. The system is operable in several modes, including cleaning where the flow of air is stopped and temperature-controlled pressurized water with an optional cleaning agent is discharged from the nozzles to dislodge dirt and debris from the finned surfaces while simultaneously cooling the hot process liquid. When extremes of ambient air temperatures preclude the forced air fans from achieving the target temperature range of the process liquid passing through the ACHE, refrigerated pressurized cooled water and compressed air in the form of a mist is discharged from the nozzles, or alternatively, pressurized heated air is discharged from the nozzles.

Described herein is a container suitable for cleaning metering valves of a metering system. The container can be mounted on a metering valve, includes a container opening, a container body, and a container base. The container has at least one nozzle, which is let into the container base, through which the container can be supplied with compressed air and/or through which a cleaning compound can be pumped into the container, and also has at least one outlet let into the container base. Also described herein are a use of the container for cleaning metering valves of a metering system, a metering valve on which a container is mounted, a metering system including at least one such metering valve, and a method for cleaning metering valves of a metering system, wherein the method includes cleaning at least one metering valve of a metering system using at least one container.

An apparatus for cleaning drinking straws has a canister enclosing a plurality of carriers for supporting drinking straws to be cleaned, and a subsystem supplying water heated to a sanitizing temperature to the carriers. Straws are placed in or on the carriers, and the heated water flows around the inside and the outside of the straws.

An off-line cleaning apparatus for a painting machine (6) mainly comprises a body (16), and a solvent tank (1), a solvent pipe (2) a compressed air pipe (3), a main cleaning pipe (4), and a test pipe (11) arranged inside the body (16). The solvent tank (1) communicates with the main cleaning pipe (4) via the solvent pipe (2) in which a conveying pump (10) is provided. The compressed air pipe (3) communicates with the main cleaning pipe (4) so as to introduce compressed air into the main cleaning pipe (4). The main cleaning pipe (4) is provided with first branch cleaning pipes (4.1) and a second branch cleaning pipe (4.2). On the basis of the above-described structures, the off-line cleaning apparatus is able to thoroughly clean mixer pipes (5) and the painting machine (6), and ensures painting quality of vehicle bumpers.

A method of cleaning an endoscope in a computer-controlled washer/disinfector comprising the steps of connecting each lumen of an endoscope to a fluid distribution system for selectively conveying pressurized air or pressurized fluids through lumens in an endoscope; identifying the type of endoscope to be cleaned in said washer/disinfector; determining a blockage threshold flow coefficient for each lumen for said endoscope to be cleaned; pressurizing each lumen in said endoscope individually and determining an actual flow coefficient through said lumen; determining whether said endoscope is suitable for cleaning by comparing said actual flow coefficients for a lumen in said endoscope to said blockage threshold flow coefficient for said lumen; and determining whether a connection to a lumen in said endoscope is properly connected based upon said flow coefficient through said lumen.

A method of cleaning and sterilizing a drink filling apparatus that includes drink supply piping that feeds a drink sterilized in a heating sterilization part into a filling machine includes performing a cleaning in place (CIP), in which a cleaner is circulated in the drink supply piping to remove a drink residue or the like on an interior of the drink supply piping, raising a temperature of the cleaner to a temperature required for a sterilizing in place (SIP), which is performed in succession to the CIP to sterilize the interior of the drink supply piping, from an early stage or middle stage of the CIP, then performing the SIP for the interior of the drink supply piping, and washing the cleaner away with aseptic water heated and sterilized in the heating sterilization part.

The present invention relates to a cleaning and sanitizing system for a dispensing installation that uses a single pump to pull in non-caustic, non-abrasive, and non-corrosive cleaning solution, which in turn draws in ambient air. The mixture of air and liquid is discharged into a cylindrical flow controller that discharges a flow of alternating liquid cylinders and air cylinders. The air cylinders eliminate the boundary layer and laminar sublayer, which in turn allows the liquid cylinders to apply a maximum shear force associated with the hydrodynamic entry region consistently cleaning the length of the beverage or product line with mechanical cleaning and sanitizing action, which is subsequently carried away within the liquid cylinder.

An apparatus for cleaning drinking straws has a canister enclosing a plurality of carriers for supporting drinking straws to be cleaned, and a subsystem supplying water heated to a sanitizing temperature to the carriers. Straws are placed in or on the carriers, and the heated water flows around the inside and the outside of the straws.