Abstract: Peroxycarboxylic acid compositions comprising compatible ionic compounds to deliver conductivity signals to enable monitoring of the peroxycarboxylic acid concentration by conductivity when diluted for use are disclosed. Methods of measuring peroxycarboxylic acid concentration by conductivity are also disclosed. Beneficially, conductivity measurement allows a user to determine concentration of the peroxycarboxylic acid at a point of use without cumbersome titration steps to determine the concentration providing various benefits at an application of use.

Abstract: A cleaning device for cleaning a sensing element of a vehicular camera includes a cleaning element movable between a first position and a second position to contact a surface of the sensing element. The cleaning device also includes a mechanism coupled to the cleaning element to move the cleaning element between the first position and the second position.

Abstract: A cleaning composition, a cleaning apparatus, and a method of fabricating a semiconductor device, the cleaning composition including a surfactant; deionized water; and an organic compound, wherein the surfactant is included in the cleaning composition in a concentration of about 0.28 M to about 0.39 M or a mole fraction of about 0.01 to about 0.017, and wherein the organic compound is included in the cleaning composition in a concentration of about 7.1 M to about 7.5 M or a mole fraction of about 0.27 to about 0.35.

Abstract: A semiconductor manufacturing apparatus includes a chuck stage, a scrubber nozzle, a scrubber nozzle scan mechanism, a stage rotation mechanism, and a holding stage including a holding fluid nozzle and a top plate, the top plate having one main surface facing an opposite surface of a wafer, and the holding fluid nozzle being disposed adjacent to a center rather than a periphery portion of the top plate. A holding fluid discharged from the holding fluid nozzle is caused to flow through an area between the opposite surface of the wafer and the one main surface of the top plate to produce holding force, and the holding force causes the opposite surface to hold pressure applied to a processing surface of the wafer by a scrubbing fluid discharged from the scrubber nozzle.

Abstract: An embodiment of the present invention provides a substrate cleaning method including: supplying of a liquid cleaning solution containing a thermoreactive polymer resin in a solvent to a substrate; trapping of particles by gelling the liquid cleaning solution by phase transition through first heat treatment; liquefying of the gel-state cleaning solution with the particle trapped therein by phase transition through second heat treatment; and removing of the liquefied cleaning solution by supplying a rinse solution.

Abstract: In a substrate processing method, as a liquid film forming process, a liquid film of a processing liquid covering a surface of a substrate W is formed by supplying the processing liquid onto the surface of the substrate W while rotating the substrate W at a first rotation number. After the liquid film forming process, as a supply stopping process, a rotation number of the substrate W is set to be of a value equal to or less than the first rotation number and a supply of the processing liquid onto the substrate W is stopped. After the supply stopping process, as a liquid amount adjusting process, a liquid amount of the processing liquid forming the liquid film is reduced by setting the rotation number of the substrate W to a rotation number larger than the first rotation number.

Abstract: A liquid of a hydrophobizing agent is supplied to a surface of a substrate to form a liquid film of the hydrophobizing agent that covers an entire surface region of the substrate. Thereafter, a liquid amount of the hydrophobizing agent on the substrate is decreased while maintaining a state in which the entire surface region of the substrate is covered with the liquid film of the hydrophobizing agent. Thereafter, the liquid of the hydrophobizing agent on the substrate is replaced with a liquid of the first organic solvent by supplying the liquid of the first organic solvent to the surface of the substrate covered with the liquid film of the hydrophobizing agent in a state in which the liquid amount of the hydrophobizing agent on the substrate has decreased. Thereafter, the substrate is dried.

Abstract: The present invention relates to a method of cleaning electrolytic cells that includes: (a) directing a base solution comprising water into an array of electrolytic cells; and (b) removing contaminants from at least one of the electrolytic cells with air turbulence provided by an injection of compressed air into the electrolytic cell. The injection of compressed air is provided by an air sparging system in fluid communication with an inlet portion of the at least one electrolytic cell. A self-cleaning electrolytic cell system is further included.

Abstract: A method for cleaning items to be cleaned is disclosed. A cleaning device is used that has at least one cleaning chamber and at least one applicator for applying at least one cleaning fluid to the items to be cleaned in the cleaning chamber. A desired hygiene value is prespecified. The method further includes time-resolved recording of at least two influencing variables which influence hygienization of the items to be cleaned. Hygiene share values are determined from the influencing variables using a prespecified relationship between each influencing variable and the respective hygiene value share of said influencing variable. An expected actual hygiene value at the end of the cleaning from the hygiene value shares is ascertained and compared with the desired hygiene value. At least one of the influencing variables is changed based on the comparison. An inventive cleaning device is also disclosed.

Abstract: A method for cleaning a ventilation system of a clothes dryer includes operatively connecting an open proximal end of a hollow duct cleaning tool to a portable airstream appliance adapted for generating a pressurized airflow. A lint screen is first removed from a screen housing opening at the lint exhaust of the clothes dryer. An open distal end of the hollow duct cleaning tool is then placed over the screen housing opening of the clothes dryer, such that the distal end closely engages the clothes dryer to operatively air-seal the screen housing opening. The portable airstream appliance is then activated to direct the pressurized airflow through the duct cleaning tool, lint exhaust and ventilation system of the clothes dryer, thereby evacuating lint and debris collected inside the ductwork of the ventilation system.

Abstract: Methods of online cleaning of heat exchangers at elevated temperatures are provided. Cleaning of the heat exchanger is achieved through an increasing heat exchanger effluent temperature of a polymer solution together with operating under optimized process conditions provided by a phase diagram constructed for the polymer solution. The separation of polymer from unreacted monomers and solvent in the polymer solution is carried out by raising the temperature of the polymer solution as reactor effluent flowing through the heat exchanger. Then, subsequently and by reducing pressure of the heat exchanger effluent, the polymer solution separates into two liquid phases.

Abstract: A system for and method of removing residues, deposits, and debris from a substrate that has been marked by a chemical etching process is disclosed. The system includes one or more upper sprayers that deposit a cleaning solution to a top surface of the product as it passes beneath the one or more upper sprayers. The system further includes at least one upper brush that operates to scrub the top surface of the product after the cleaning solution has been applied thereto. The system optionally includes one or more lower sprayers and lower brushes to clean a bottom surface of the product as it is conveyed through the system. The system further includes an air knife system that assists with drying the product prior to exiting the system. The system further includes a controller that is operable to adjust various system parameters.

Abstract: One or more techniques and/or systems are disclosed for producing beneficial re-use sand from foundry sand. Foundry sand can be collected from a mold making operation, and/or from the casting removal and cleaning process. The collected sand product can be cleaned and separated into a clay and carbon mixture, and a beneficial re-use sand. The collected sand product can be cleaned by mixing with water, and subjecting the resulting mix to a hydrocyclone at appropriate flow rates. The hydrocyclone can separate the mix into a carbon, clay and water mix for re-use, and a wet sand mix. Water can be separated from the wet sand and reused, and the resulting sand can be used as beneficial re-use sand.

Abstract: A method of operating a dishwashing appliance includes filling the sump of the dishwashing appliance with an initial fill of water of a current operational cycle and measuring a temperature of the initial fill of water. The method also includes comparing the temperature of the initial fill of water to a reference temperature and calculating an energy demand for the dishwashing appliance to heat the initial fill of water to the reference temperature based on a heat rise rate. Based on the calculated energy demand, for example based on a comparison of the calculated energy demand with a predetermined energy demand for an external heating unit, the dishwashing appliance decides whether to heat the initial fill. The heat rise rate may be calculated during a characterization of the dishwashing appliance prior to the current operational cycle.

Abstract: A nozzle for water jet equipment and a method of use thereof. The nozzle has a body including a base with a shaft extending outwardly therefrom. The shaft is inserted through a bore of a sleeve that rotatable about the shaft. The base and shaft define a bore therein. At least one opening is defined in the shaft and one or more grooves are milled into the shaft's exterior surface. Each opening places the body's bore in fluid communication with one of the grooves and the sleeve's bore. Water flowing through the body's bore will flow through each opening, into the associated groove and into a space between the shaft and sleeve. The shaft terminates in a conical section usable as a battering ram to break up blockages in pipes during cleaning operations.

Abstract: A nozzle for water jet equipment and a method of use thereof. The nozzle has a body including a base with a shaft extending outwardly therefrom. The shaft is inserted through a bore of a sleeve that rotatable about the shaft. The base and shaft define a bore therein. At least one opening is defined in the shaft and one or more grooves are milled into the shaft's exterior surface. Each opening places the body's bore in fluid communication with one of the grooves and the sleeve's bore. Water flowing through the body's bore will flow through each opening, into the associated groove and into a space between the shaft and sleeve. The shaft terminates in a conical section usable as a battering ram to break up blockages in pipes during cleaning operations.

Abstract: A system for cleaning a commercial food or beverage refrigeration unit may include: a liquid tank; a pump; a vacuum recovery tank; a vacuum motor assembly; a spray wand; a drain stopper; and a suction tool. The refrigeration unit may include a rack, a tray, a fan, a fan housing, a fan power cord, a fan housing power outlet, a coolant, a coolant coil, a pan, and a drain. A method of cleaning the refrigeration unit may include: filling the liquid tank; rinsing the rack by spraying liquid onto the rack; removing the rack; rinsing the tray by spraying liquid onto the tray; removing the tray; stopping the fan; stopping the flow of the coolant; positioning the drain stopper; elevating the fan housing; rinsing the coil by spraying liquid onto the coil; positioning the suction tool on the pan; and vacuuming soil and sprayed liquid into the vacuum recovery tank.

Abstract: A process and system for cleaning a high pressure separator vessel in a polymerization reactor without removing the top cover and its associated bolts by providing a cleaning hole in a fluid fitting above and adjacent to the top cover, through which a cord or cable is fed and affixed to a rotatable cleaning nozzle. The cleaning nozzle is gradually raised, lowered and rotated to direct a high pressure liquid onto the interior walls of the vessel to remove accumulated waste material.

Abstract: A substrate processing method includes a substrate holding step of holding a substrate in a horizontal attitude, a chemical liquid supply step of supplying a chemical liquid to a main surface of the substrate while rotating the substrate around a vertical rotational axis that passes through a central portion of the substrate, a processing-height maintaining step of maintaining a cylindrical first guard that captures a chemical liquid expelled from the substrate at a processing height position in parallel with the chemical liquid supply step, and a cleaning-height maintaining step of maintaining the first guard at a cleaning height position set below the processing height position in parallel with the chemical liquid supply step after the processing-height maintaining step.

Abstract: There are provided methods of treating a catalyst-containing reactor system with a liquid solvent to remove contaminants from the reactor system. An exemplary method includes the steps of: isolating the reactor system to be treated from upstream and downstream equipment; reducing the temperature and pressure of the isolated reactor system by flushing with a hydrogen rich gas; injecting a non-aqueous liquid solvent into the reactor system at an injection point while continuously flowing hydrogen-rich gas through the reactor system; maintaining the solvent in a liquid state while flowing the solvent continuously through the reactor system; and terminating the step of injecting solvent and terminating the continuous flowing of hydrogen-rich gas. The exemplary method is free of the injecting of a carrier gas into the reactor system comprising alkanes selected from the methane, ethane, propane, butane and pentane.