Abstract: The present invention refers to a concentrate for use in a cleaning and/or washing process comprising a) an alkyl glycoside having the general formula R1OGn whereby G is a saccharide residue and n is 1, 2, 3, 4 or 5 and R1 is an alkyl group or alkylene group having 1 to 20 carbon atoms, and b) a nonionic alkylene oxide adduct, wherein the concentrate has a pH value of less than 6.5, as well as to a solution obtained by diluting the concentrate and to a process of cleaning objects using the concentrate and/or solution.

Abstract: Methods for cleaning out horizontal wellbores using coiled tubing are provided for use during downhole operations. A coiled tubing having a bottom hole assembly is deployed into a horizontal wellbore. Fluid is circulated down the annulus of the wellbore and up the bottom hole assembly while the bottom hole assembly is moved upward at a selected rate and distance. This method may be used to remove downhole solids, such as formation sands and proppant.

Abstract: A system and method of cleaning a plurality of teat cups (8a-d) includes using a robotic manipulation device (2) to move the plurality of teat cups (8a-d) from a first position to a second position, and cleaning the teat cups (8a-d) at a second position, wherein the robotic manipulation device (2) deposits the teat cups (8a-d) individually, in turn, at the second position.

Abstract: A separation device for removing solids from an input stream is provided, comprising a vessel, such as a production vessel or storage tank, having an inlet for receiving an input stream containing fluids, such as oil and water, and solids, such as sand and silt. The vessel also includes a fluid outlet and a drain outlet. An optional fluid recirculation and injection device is mounted inside the vessel and delivers fluid to facilitate removal of the solids through the drain outlet. The vessel also includes an agitation or flighted device mounted adjacent to the drain outlet for contacting and dislodging solids which have settled within the vessel. The agitation device includes a rotatable shaft driven by a motor, and an agitation element, such as an auger, to break up the solids and move them toward the drain outlet. A method of removing solids is also provided using the auger device.

Abstract: Method and apparatus for removing residual material from sample wells of a multiwell plate. Wells located on a multiwell plate are placed in fluid communication with wash wells of a wash reservoir where cleaning fluid is provided to remove residual material from the sample wells of the multiwell plate.

Abstract: Depending on the actual operating situation and the composition of the fuels used for driving the internal combustion engine, contamination of the moving blades, of the guide device and of the turbine casing parts occurs sooner or later in the exhaust gas turbine. According to the invention, a small quantity of cleaning fluid is fed continuously or cyclically into the exhaust gas flow of an exhaust gas turbine and is directed onto the components to be cleaned. The small quantity of cleaning fluid can be fed in with unchanged operation of the internal combustion engine, such that the exhaust gas turbine can be cleaned or kept clean within the entire operating range of the internal combustion engine. Fluctuations in the power output of the internal combustion engine on account of requisite cleaning of the exhaust gas turbine therefore do not occur. Furthermore, the formation of thermostress cracks in the critical turbine casing parts is largely avoided.

Abstract: Tubular labels and contaminants can be removed from containers and/or bottles of plastic material to be recycled, by subjecting the containers and/or bottles to a first weak mechanical washing and slow centrifugating action, followed by a separation step for separating the removed labels and contaminants from the containers. The containers are subsequently subjected to a second strong mechanical washing and fast centrifugating action for the removal from the containers and/or bottles of any residual labels and contaminants.

Abstract: A cylinder head cleaning method capable of cleaning a cylinder head with an enhanced foreign matter removing rate. The method is used to clean a cylinder head having therein a water jacket including a narrow space portion having a narrow flow path and a large space having a flow path wider than the narrow space portion, and the cylinder head further including holes communicating with the water jacket. Cleaning nozzles are inserted into the water jacket from the holes selected from the holes, clearing liquid is ejected from the cleaning nozzles toward the narrow space portion, and the cleaning liquid flowing from the narrow space portion to the large space is discharged to the outside of the cylinder head from the hole communicating with the space.

Abstract: A bottle cleaning machine and to a method for cleaning bottles with a bottle transporting device for transporting the bottles to be cleaned and with spraying nozzles. The bottle transporting device is configured such that the bottles are transported past the spraying nozzles along a substantially spiral transportation path, and preferably about a horizontal axis.

Abstract: Tubular labels and contaminants can be removed from containers and/or bottles of plastic material to be recycled, by subjecting the containers and/or bottles to a first weak mechanical washing and slow centrifugating action, followed by a separation step for separating the removed labels and contaminants from the containers. The containers are subsequently subjected to a second strong mechanical washing and fast centrifugating action for the removal from the containers and/or bottles of any residual labels and contaminants.

Abstract: A bin washer device disposed along a conveyor that moves bins, includes a support and at least two bin holders, preferably three bin holders, rotatably supported on the support above the conveyor. Two left sprays are provided outside the path of the bin holders and at angles that are perpendicular to one another. Similarly, two right sprays are provided outside the path and at angles perpendicular to one another. The right sprays minor the left sprays whereby that all sides of a bin are washed. A method includes stopping rotation of the support, discharging a bin from a first bin holder and receiving a bin into the first bin holder. The support is then rotated and the bins in the bin holders are washed. The support is again stopped and a bin a discharged from a second bin holder, and a next bin is received in the second bin holder. The support is then rotated and the bins in the bin holders are washed. These steps are repeated for each bin holder and/or until all of the bins have been washed.

Abstract: A method and apparatus provide for automatically cleaning and decontaminating medical instruments. The method comprising the steps of: a) placing the medical instruments into a container after their use in a medical procedure; b) closing the container to seal the instruments inside whereby to prevent personnel contact with the instruments and any contaminants which might be thereon; c) inserting the sealed container into a washer/decontaminator and sealing the washer/decontaminator; d) the washer/decontaminator automatically opening the container and applying a washing fluid thereto to wash the instruments within the container; and e) the washer/decontaminator automatically applying a disinfectant to the container to disinfect the instruments whereby to allow safe handling thereof by personnel.

Abstract: A method for removing deposits from at least one compressor powered by an engine. The method comprises disconnecting while the engine is turned off, a high pressure downstream side of the compressor from an intercooler, or an air intake manifold for non-intercooled engines, while leaving the compressor attached to a means used in the engine to drive the compressor. The output airflow is diverted from the compressor away from the engine to a disposal or to a means of separating a cleaning fluid from air. After starting the engine and while the engine is running, the cleaning fluid is injected for a sufficient time to clean the compressor.

Abstract: A method of introducing treatment fluid into containers to remove contaminants therefrom in a container filling plant, and an arrangement therefor. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. §1.72(b). As stated in 37 C.F.R. §1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

Abstract: A method and system augments shaft output of gas turbine engines that can be used in multiple modes of operation. The system comprises a washing unit capable of injecting atomized water into the gas turbine engine, thereby obtaining a release of fouling material from the at least one compressor blade; and at least one water injection unit capable of injecting atomized water into the air stream of the gas turbine engine's inlet duct or at the gas turbine, under the control of a computational fluid dynamic model, in order to increase a mass flow of said air flow, wherein the power output from said gas turbine engine can be augmented.

Abstract: A plant and method for washing containers comprising a base wall and a plurality of lateral sides hinged to the base wall in order to define at least a first folded condition, in which the sides are folded in overlapping pairs and substantially parallel to the base wall, and a second open condition, in which the sides are substantially perpendicular to the base wall and define a containing compartment of the container. The plant comprises a washer machine into which the containers are fed in the first folded condition, and provided inside with a plurality of delivery nozzles. At least part of the delivery nozzles are disposed and directed with respect to the containers in such a manner as to direct the washing liquid delivered under pressure mainly towards a first external lateral side, so as to determine the at least partial opening of a second external lateral side with respect to the base wall.

Abstract: A method of cleaning beverage bottles in a beverage bottling plant, a method of cleaning containers in a container filling plant, and an apparatus therefor. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. §1.72(b). As stated in 37 C.F.R. §1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

Abstract: A system for recovering concrete wash product includes a support frame mounted pivotally to a chassis of a transit concrete mixing vehicle, and a container mounted to the frame for arcuate movement with the frame, between a collecting position with the container disposed below a discharge chute of the vehicle, and a dispensing position with the container disposed adjacent an opening of a mixing drum of the vehicle. The container initially is placed in the collecting position to receive concrete wash product from the discharge chute by gravity as the chute is cleaned with water. After cleaning, the frame is pivoted to raise the container to the dispensing position, and a valve is opened to allow the concrete wash product to flow from the container into the mixing drum by gravity. In vehicles equipped with booster axle systems, the booster axle frame supports and positions the container, and also supports and positions the booster wheel/axle assembly.

Abstract: A cleaning assembly for containers, particularly for bottles, having a conveying device on which the containers are arranged by means of a receptacle means. To economically and ecologically improve the cleaning assembly, the receptacle means contains a liquid-tight tubular for an individual cleaning of the containers.

Abstract: A fluid handling device with an anisotropic wetting surface including a substrate with a multiplicity of asymmetric substantially uniformly shaped asperities thereon. Each asperity has a first asperity rise angle and a second asperity rise angle relative to the substrate. The asperities are structured to present a desired retentive force ratio (f1/f2) greater or less than unity caused by asymmetry between the first asperity rise angle and the second asperity rise angle according to the formula: f3/f2=sin(?3+½??0)/sin(?2+½??0).

Abstract: A method for handling containers and container handling machine. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. §1.72(b). As stated in 37 C.F.R. §1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

Abstract: An apparatus and a method for etching insulating film prevents generation of spots by spraying etchant on a lower surface of the substrate as well as the upper surface.

Abstract: A method and apparatus for removing a first liquid from a surface of a substrate is provided. A second liquid is supplied to at least part of a surface of a substrate having a rotary movement. The rotary movement has a center of rotation and an edge of rotation. The second liquid is directed from the center of rotation to the edge of rotation using a nozzle. A dry zone is created on the substrate as the position of the spray moves from the center of rotation to the edge of rotation. As a result, the first liquid and the second liquid are removed from the surface of the substrate.

Abstract: A wash apparatus includes a harness assembly comprising a coupling device a coupling device for connecting one or more fluid supply lines to one or more fluid delivery lines; one or more fluid delivery lines removably attached at one end to the coupling device's first portion and positioned for delivering washing fluid directly into the gas turbine engine core as the engine is cranked; one or more fluid supply lines removably attached to the coupling device's second portion for supplying washing fluid to the harness assembly and remaining in a static position relative to the rotating fluid delivery lines; one or more harness rings attached to the one or more fluid delivery lines for spacing, stabilizing, and positioning the fluid delivery lines relative to the fan blades; and a connector for removably attaching the harness assembly directly onto the fan hub.

Abstract: The present invention relates to vacuum processing systems in which process gases are introduced in a process chamber and are exhausted through a vacuum processing system exhaust path. Deposits made by the exhausted gases in one or more dry vacuum pumps are removed by introducing hydrofluoric acid upstream of the dry pump while the processing chamber is idle. The hydrofluoric acid is introduced upstream of the dry pump through a nozzle in the foreline or at the inlet to the dry pump.

Abstract: A method for cleaning a stationary gas turbine unit during operation, wherein the unit comprises a turbine, a compressor driven by the turbine, the compressor having an inlet, an air inlet duct arranged upstream of the air inlet of the compressor, the inlet duct having a part of the duct adjoining the inlet of the compressor and having decreasing cross section in the flow direction in order to give the air flow a final velocity at the inlet to the compressor. A spray of cleaning fluid is introduced in the inlet duct. The cleaning fluid is forced through a spray nozzle with a pressure drop exceeding 120 bar to form a spray the drops of which have a mean size that is less than 150 ?m. The spray is directed substantially parallel to and in the same direction as the direction of the air flow.

Abstract: The present invention discloses a method and system for augmenting shaft output of stationary gas turbines that can be used in multiple modes of operation. The system comprises a washing unit (25, 27, 28) adapted to inject a spray (26) of atomized liquid so as to impinge on the compressor blades (12) in order to wet said blades (12), thereby obtaining a release of fouling material from said blades (12); and at least one liquid injection unit (21, 23, 24, 29, 210, 212, 214, 215, 216) adapted to inject a spray (22, 211, 213) of atomized liquid into an air stream of said turbine duct (101) or at the gas turbine (10) in order to increase a mass flow of said air flow, wherein the power output from said gas turbine engine can be augmented. With the invention follows also benefits such as fuel savings and improved environmental performance by reduction of emissions.

Abstract: A cleaning system for removing contaminants from a catalytic converter includes a vibrator for vibrating the catalytic converter when the converter is placed in a cleaning liquid. The vibrator is mounted on a lift-connector of the system. The lift-connector defines a pair of forklift-openings for receiving forks of a forklift.

Abstract: An inventive recovery cup cleaning method is a method for cleaning a recovery cup having an interior wall partitioning a recovery space into which a chemical agent used for treating a substrate is introduced, the recovery cup being configured such that the chemical agent introduced into the recovery space is further introduced into a predetermined chemical agent recovery passage so as to be recovered.

Abstract: A washing machine control method includes executing a dewatering step. The method accelerates a motor to rotate a drum according to a predetermined rate in response to the dewatering execution step. The method detects if the predetermined rate exceeds a first value but is less than a second value, and whether a state of vibration exists with respect to the drum rotated according to the predetermined rate; and stops the motor if the detected state of vibration exists.

Abstract: A plating apparatus and a plating liquid removing method removes a plating liquid remaining on a substrate-contacting portion, or portions in its vicinity, of a substrate holding member. The plating apparatus comprises a head having a rotatable housing provided with a substrate holding member for holding a substrate, a plating process container, disposed below the head, for holding a plating liquid therein, and a plating liquid removing mechanism for removing plating liquid remaining on the substrate-contacting portion, or the portions in its vicinity, at an inner circumferential edge of the substrate holding member.

Abstract: A substrate is transferred from an environment at about vacuum into a load lock through a first door. The substrate is then sealed within the load lock. The pressure within the load lock is raised to a high pressure above vacuum. A second door coupling the load lock to a high-pressure processing chamber is then opened and the substrate moved from the load lock into the high-pressure chamber. The substrate is then sealed within the high-pressure chamber. High-pressure processing, such as high pressure cleaning or high pressure deposition, is then performed on the substrate within the high-pressure chamber. Subsequently, the second door is opened and the substrate transferred into the load lock. The substrate is then sealed within the load lock. The pressure within the load lock is lowered to about vacuum and the first door opened. The substrate is then removed from the load lock into the environment.

Abstract: Methods and compositions for on-line cleaning of internal surfaces of selected sections of a hydrocarbon fuel burning gas turbine and associated heat recovery equipment, during operation. Cleaning solutions containing graphite and/or molybdenum-based particles and oil soluble corrosion inhibitors, aromatic solvents, and surfactants are selectively introduced directly into the combustion chamber (combustor) of the gas turbine, into the fuel stream, water washing system, or the combustion air system (hot gas path). The cleaning process dislodges unwanted ash deposit buildup and, thereby restores the gas turbine to rated power. When introduced into the compressor section, the particles impinge on the metal surfaces, cleaning them prior to entering the hot gas section where the process may be repeated. They may also be carried through the exhaust to additionally clean attendant heat recovery equipment, if present.

Abstract: The present ball/roller bearing cleaning method is a method which, using cleaning liquid 24, cleans a bearing to be cleaned 1 composed of an inner ring 1b, an outer ring 1a, a rolling bodies 1c and a retainer. In the cleaning method, the cleaning liquid 24 is made to flow through the bearing to be cleaned 1 from the axial direction of the present bearing 1 into spaces in which the raceway surfaces of the inner and outer rings 1b and 1a of the bearing to be cleaned 1 surround the rolling bodies 1c and retainer. For example, a cylindrical-shaped rotary die 2 having spiral grooves 2a is interposed into a cleaning liquid supply passage, and the cleaning liquid 4 is supplied to thereby rotate the cylindrical-shaped rotary die 2, whereby the cleaning liquid having high pressure can be supplied to the bearing to be cleaned 1 from the cylindrical-shaped rotary die 2.

Abstract: The present invention is directed to a gas turbine cleaner. The composition of the present invention includes a glycol alkyl ether compound, an alkoxylated surfactant with an alkyl chain length of from about 3 to 18 carbons and a metal corrosion inhibitor component.

Abstract: A method for cleaning portions of a particle classifier, such as for example the rotor and/or stator, includes providing carbon dioxide particles to the classifier. Carbon dioxide particles are supplied to the classifier via a particle inlet and subjected to processing conditions similar to those utilized in particle classification. Cleaning a classifier with carbon dioxide particles may be accomplished off-line or on-line.

Abstract: A method facilitates washing a gas turbine engine combustor. The method comprises coupling a nozzle assembly against the combustor, wherein the nozzle assembly includes an inlet end, a discharge end, a hollow nozzle body extending therebetween, and a centerbody positioned within the nozzle body, coupling the nozzle assembly to a fluid source, and discharging an annulus of fluid from the nozzle assembly into the combustor to facilitate removing particulate matter from the combustor.

Abstract: This invention provides fluid-dispensing devices attachable to an air-intake system of an internal combustion engine for introducing an engine cleaner composition into the air intake system. The invention also provides methods of cleaning internal combustion engines using the fluid-dispensing devices.

Abstract: A method of cleaning and maintenance used for a rotational etching tool, combining the physical characteristics of water (splashed off after striking the surface of a spinning wafer) and a PM (preventive maintenance) computer program, can automatically and quickly clean the interior of the etching tool. By setting the appropriate parameters of PM program, single or all of process chambers can be well cleaned. Also, the DI water dropping positions on the wafer can be altered to create more splashing angles. To clean the sidewalls of the etching chambers, the wafer supporting means is moved between the process chamber and the rotating speed thereof is preferably alter while it is moving. The PM program of the present invention can be executed whenever the cleaning job needs to be done. It not only is timesaving and easy to apply, but also keeps the wafer in a almost-no-particle environment while being etched.

Abstract: A high-speed object washer may be provided for receiving a plurality of objects at an entrance portion, engaging a retention turntable and progressing into a cover. While traveling in the cover in a rotary direction, various cleaning operations may be performed to the object in order to remove various contaminates. After traveling in the rotary direction under the cover, the object may egress from the object washer at an exit portion. The object egresses from the exit portion clean and contaminate-free.

Abstract: A process for restoring magnetic recording tape damaged by “Sticky Shed” syndrome cleans magnetic tapes of the Backcoating which is causing their eventual degradation and destruction. The Backcoating is first removed in a multi-step process. A liquid cleaner, such as isopropyl alcohol, is applied to the Backcoating to dissolve it from and clean it off the Mylar Base. Before the liquid cleaner is applied, steps are taken to prevent the cleaner fluid from getting onto the Oxide side of the tape. The chemical cleaning is done as quickly as possible. The second step is to dry clean the Base surface of the tape to remove the remaining solvent and the debris of any remaining Backcoating. Then, the Oxide side of the tape is given a dry, non-chemical cleaning to remove the residue of contamination of the Backcoating which was deposited on the Oxide side of the tape as the result of physical contact with the Backcoating from the storage on the reel of tape.

Abstract: In a ring shaped part washing method an ultrasonic vibration plate 33 is disposed in a washing tank 23 filled with a washing fluid 31, and ultrasonic waves generated by the ultrasonic vibration plate 33 are applied to ring-shaped parts 27 disposed in the washing tank 23 to thereby remove foreign substances stick to the ring-shaped parts 27 therefrom. The ring-shaped parts 27 are disposed inclinedly with respect to the ultrasonic vibration plate 33 in such a manner that the axes 27a of the ring-shaped parts 27 intersect with the plate surface 33a of the ultrasonic vibration plate 33 at an angle &thgr; other than a right angle.

Abstract: A method and machine for on-line treating and/or processing containers (2), whereby a container (2) is fed along a production line (45), a portion of which is defined by an endless conveyor (3) extending through a loading station (43; 55) and an unloading station (41; 55) for containers (2); the container (2), as it is fed along by the conveyor (3), being subjected to a treatment and/or processing operation inside a respective cell (17), which is movable with the conveyor (3) to receive the container (2) at the loading station (43; 55) and to release the container (2) at the unloading station (41; 55).

Abstract: In a cleaning apparatus 500, as a pre-cleaning step, cleaning is performed in a first and a second backup cleaning bath 602 and 603 using a hydrocarbon-based cleaning liquid composed of a normal paraffin, such as normal nonane or normal decane, as a primary component and a surfactant such as a fatty acid alkanol amide or a fatty acid N-alkyl alkylene diamine, and as a post-cleaning step, immersion cleaning, shower cleaning, and vapor cleaning are performed in a cleaning bath 601 using a hydrocarbon-based cleaning liquid containing no surfactant.

Abstract: A filter cleaning apparatus is disclosed comprising a mount for a filter element having a fluid channel, the fluid channel positioned interior to the filter element; and a plurality of fluid outlets located along the fluid channel, wherein the fluid outlets are positioned to generate a fluid flow against the filter element to rotate the filter element about the mount.

Abstract: A method of cleaning articles, such as infant feeding bottles is disclosed. The method provides for the use of alkali metal chloride, more particularly sodium chloride. The salt is deposited into the article to be cleaned, then water is added, and then the article is shaken to cause the crystalline substance to contact the interior walls of the container, thereby cleaning and sanitizing the interior of the article.

Abstract: Reusable instruments, such as reusable medical instruments, and related systems and methods, are disclosed. In some embodiments, the reusable instrument can be an endoscope.

Abstract: An apparatus and a method for cleaning a torch for a vertical furnace used in semiconductor processing are disclosed. The apparatus is constructed by two main components of a basket-shaped fixture body and a cleaning bath. The fixture body is formed of cylindrical shape with a top ring, a bottom ring and three support rods connecting the two rings together. The top ring is provided with an outwardly extending flange portion for engaging an opening in a cleaning bath for supporting and suspending the fixture body in the bath. The bottom ring is equipped with a pair of symmetrically positioned, inwardly extending arcuate-shaped flange portions adapted for supporting an edge of a bottom surface of the furnace torch in the cleaning bath.

Abstract: This invention relates to liquid dispensing and to a method of rinsing micro-dispensing syringes. In particular, the invention relates to a method of rinsing syringes of the plunger-in-needle type provided in an array.

Abstract: In a method of cleaning a deposition process chamber, a remotely generated activated gas is supplied to the process chamber, in which, depending on the type of excitation means used, a specified chamber pressure in combination with a two-step clean process allows one to significantly reduce nitrogen fluoride (NF3) consumption and increase throughput.