Abstract: A method for cleaning garbage disposals comprises the steps of: mixing the starting materials in order to form an effervescent tablet; packaging the tablet in a moisture resistant pouch; placing the tablet in a garbage disposal unit; running warm water into the garbage disposal unit and turning on the garbage disposal for about 20 seconds; turning off the water and the garbage disposal, permitting the foam generated to maintain contact with all surfaces for about five minutes; and followed by rinsing away any left-over residue with generous amounts of water.

Abstract: A method for cleaning a vapor reactor by applying a liquid cleaning agent comprising a fluorinated ketone having about 5 to about 10 carbon atoms and up to two hydrogen atoms is described. The fluorinated ketone has low global warming potential.

Abstract: The invention relates to the inhibition of tripolyphosphate and pyrophosphate scales in aqueous systems involving adding to said aqueous system at least one copolymer comprising the following monomers in polymerized form: (I) 50-80% by weight of one or more weak acids; (II) 2-50% by weight of one or more strong acids; (III) 0-30% by weight of one or more monoethylenically unsaturated C4-C8 dicarboxylic acids; and (IV) 0-30% by weight of one or more monomethylenically unsaturated monomers polymerizable with (I), (II) and (III); wherein the total of monomers (I), (II), (III), and (IV) equals 100% by weight of copolymer. The invention is particularly suited to the inhibition of tripolyphosphate and pyrophosphate scales which occur as a result of using low phosphate (STPP) containing detergent formulations.

Abstract: The present invention is a method for cleaning the cavities in electronic components by providing a semiconductor component having an outside surface and a cavity therein. The component including hole in the outside surface enabling fluid flow in to or out of the cavity. The component is immersed in a solvent bath where solvent is flowed into the cavity using the hole, the solvent cleaning the cavity and then optionally being evacuated from the cavity. Specifically, the principles of the present invention may be used to clean the underfill space of a flip-chip package. The flip-chip package includes a packaging substrate with an evacuation port passing through the bulk of the packaging substrate such that the port is in communication with the underfill space and a bottom surface with the packaging substrate. This assembly is immersed in a solvent filled solvent bath. Solvent is drawn into the underfill space through said port. Alternatively, solvent may be injected into the underfill space through the port.

Abstract: A novel cleaning-in-place process is described. The process is one which is segmented, and unused solution is pumped through more than two components of a machine targeted for cleaning, disinfecting or both. The process also results in superior cleaning in shorter cleaning cycles.

Abstract: The invention relates to the use of organic carbonates having formula (I) 1

Abstract: The invention relates to compositions having an alkylene carbonate and a primary hydroxyl functional capping agent selected from the group consisting of methoxypolyoxyethylene monol, polyoxyethylene-polyoxypropylene monol, and mixtures thereof for treating materials fouled with isocyanate. The invention also relates to decontamination of materials fouled with isocyanate, and to methods for decontamination of solvent fouled with isocyanate.

Abstract: The specification discloses a method for cleaning an oligomerization reactor after making a higher olefin in the reactor. An olefin is reacted in the presence of a catalyst comprising an aluminum alkyl to form an olefin reaction product. For example, ethylene can be trimerized in the reaction to produce 1-hexene. The reaction also causes a co-product residue of the catalyst to form on the interior surface of the reactor. The interior surface of the reactor is then contacted with an alcohol under conditions effective to remove at least a substantial amount of the catalyst residue from the interior surface of the reactor. The catalyst-removing step can be carried out by combining an alcohol with the process medium used in the reactor. The combined medium can be used to remove both the accumulated polymer co-product and the accumulated catalyst residue from the reactor.

Abstract: A method of inhibiting and/or removing deposits from coke oven gas handling equipment is disclosed which comprises the addition of a treatment combination of a heterocyclic nitrogenous compound such as quinoline and 2-butoxyethanol to the flushing liquor used to cool coke oven effluent gases.

Abstract: Brass articles having leachable lead are contacted with an aqueous caustic solution having a pH of about 10 to about 14 that contains a chelating agent. During contact, the brass articles can be sonicated. The brass articles can be optionally pretreated by contacting them with an aqueous solution containing an organic carboxylic acid and an inorganic per-salt. The brass article can optionally further be post treated by contacting them with an aqueous solution containing sodium persulfate.

Abstract: In the non-destructive recovery of oil or other petroleum hydrocarbon from a contaminated substrate, the hydrocarbon is separated intact from the substrate by applying a hydrocarbon removing agent to the substrate and collecting the hydrocarbon separated from the substrate. The separation of the hydrocarbon is effected by applying a separation agent, such as an alkali, to the substrate to effect adhesion failure of the hydrocarbon, thereby to release the hydrocarbon intact from the substrate and applying a surfactant to suspend the hydrocarbon removed from the substrate. The separation agent and the surfactant collectively constitute the hydrocarbon removing agent which can be applied as an aqueous solution.

Abstract: Methods and compositions for dissolving adherent petroleum residues which occur in the production and processing of petroleum in which esters of the following formula are employed: R1—COO—(CnH2nO)x—R2  (I) which R1 is an alkyl group containing 6 to 22 carbon atoms or a (CH2)m—COOR4 group, R2 and R4 independently of one another represent an alkyl group containing 1 to 8 carbon atoms, n is the number 2 or 3 and m is a number of 1 to 6 and x is 0 or a number of 1 to 12.

Abstract: The present invention provides a method for evenly immersing a wafer in a solution held in a solution chamber, which comprises the following steps: (1) placing at least one disk-shaped wafer inside a wafer holder which is used for vertically holding at least one wafer, (2) immersing the wafer holder into the solution vertically so that each wafer in the wafer holder can be vertically immersed into and react with the solution, (3) vertically rotating the wafer holder in the solution so as to invert each wafer in the wafer holder upside down, and (4) removing the wafer holder from the solution vertically after immersing the wafer in the solution for a predetermined period of time.

Abstract: An inhibitor especially useful for aqueous solutions being used at high temperatures to remove scale from boiler tubes and the like contains (1) amines including a substituent group with an abietyl nucleus, (2) organic compounds or polymers that contain at least 2—OH moieties per molecule and at least 0.4 —OH moieties per carbon atom, (3) organic molecules that contain a carbon-sulfur bond, and (4) surfactant.

Abstract: The disclosed invention relates to compositions having an alkylene carbonate and a primary hydroxyl functional capping agent for treating materials fouled with isocyanate. The invention also relates to decontamination of materials fouled with isocyanate, and to methods for decontamination of solvent fouled with isocyanate.

Abstract: A stripping composition and a method of using the stripping composition to remove cured resins such as elastomeric silicone adhesive deposits from ceramic and metal surfaces of electronic modules to provide reworkability options in assembly processes including diagnostic parts, parts replacement and recovery of substrates from test vehicles is provided. The stripping compositions comprise a base preferably an organic base such as a quaternary ammonium hydroxide, a surfactant and a high boiling environmentally and chemically safe solvent such as di- or tri-propylene glycol alkyl ether. In another stripping composition, the base is used in combination with a mixture of N-alkyl pyrrolidone components, preferably an N-alkyl pyrrolidone and a N-cycloalkyl pyrrolidone. The stripping compositions are used to contact an electronic module having a cured resin such as a silicone adhesive residue deposit on the module surface to dissolve, remove or strip the deposit.

Abstract: A method for removing a stain from a surface of a structure which includes the steps of spraying an aggregating agent comprising a cationic linear organic polymer onto the surface of such structure having a stain produced thereon, dissociating the stain particles by use of Coulomb force f generated between the stain particles and the aggregating agent, displacing slightly the stain particles along the surface of the structure to cause peeling thereof from the surface to be cleaned, and simultaneously, aggregating the same for cleaning. Another embodiment includes maintaining water permeability of a road by easily eliminating a stain adhering to the surfaces of granular aggregate particles forming a drainage-type pavement layer of a road without the use of various mechanical tools.

Abstract: Provided is a method for cleaning hydrophobic surfaces, such as low K dielectric organic or inorganic surfaces as well as metallization surfaces of a semiconductor wafer. The method includes: (a) applying a surfactant solution to the surface; (b) scrubbing the surface; and (c) spin-rinsing the surface of the substrate using de-ionized water to complete a removal of any contaminants from the surface. If needed, the surfactant solution can be mixed with a chemical enhancer, and the scrubbing can be performed in a brush system. The brush system may be configured to apply DI water using a through the brush (TTB) technique. The surfactant solution can be applied either using a drip technique or using the TTB technique.

Abstract: Cleaning formulations and methods are provided by which solid deposition is inhibited on hydrophobic hard surfaces typically encountered in bathroom and outdoor environments without detrimentally affecting the appearance of such surfaces. The formulations most preferably include an aqueous mixture of an organically solvated nonionic copolymer, a polyacrylic acid homopolymer and a nonionic surfactant. Optionally, a hydrotrope may also be present in the formulation. Most preferably, the formulations of this invention have a pH between about 4.0 to about 7.0, most preferably around neutral (i.e., about 7.0).

Abstract: The present invention cleans contaminants from pipes. The first step may be pulling a vacuum on the pipe to be cleaned. The pipe is then filled with a solvent, which is preferably a fluorocarbon solvent. After the pipe is filled with solvent, a cleaning solution is pumped at a high velocity through the pipe. The cleaning solution preferably comprises the fluorocarbon solvent, and a fluorosurfactant. The pipe is then rinsed with solvent. A particle counter is used to determine whether the solvent rinse contains an acceptably low number of particles. The solvent is then blown out of the pipe by a gas, such as dry air. A vacuum is then pulled on the pipe. Subsequently, a hot dry gas is pumped through the pipe to evaporate and remove any remaining solvent. The gas is preferably hot, dry air. The gas exiting from the pipe is then checked to confirm that it contains an acceptably low level of solvent vapor.

Abstract: A method for precision-cleaning the aluminum alloy inner wall surface of a tank is disclosed. In one embodiment, the inner wall surface is cleaned by a method including the steps of washing the inner wall surface with a first portion of water, applying an aqueous cleaning solution comprising sodium silicate, sodium tetrafluoroborate and sodium molybdate, and rinsing the inner wall surface with a second portion of water. In a second embodiment, the method is directed to precision-cleaning a launch vehicle booster propellant tank. In this embodiment, the method includes the steps of applying washes of water and aqueous cleaning solution on at least upper and lower sections of the inner wall surface of the tank, washing such sections with water, and analyzing samples of effluent cleaning solution and water collected from the effluent drain of the tank for hydrocarbon and particulate contaminants.

Abstract: The present invention relates to a process for removing fatty substances. According to this process, the following steps are carried out:1) at least a first degreasing operation is carried out on the article to be treated, in the presence of a solvent mixture comprising at least one compound (a) chosen from C1-C4 dialkyl esters of at least one C4-C6 aliphatic diacid, and at least one compound (b) which is miscible in the compound (a) and which at least partially dissolves the fatty substance contaminating the article, 2) at least a second degreasing operation is optionally carried out, in the presence of a solvent mixture comprising at least one compound (a) and at least one compound (b) as defined above, with a compound (a)/compound (b) volume ratio of greater than or equal to 1, 3) a third degreasing operation is carried out in the presence of compound (a), 4) the article thus treated is rinsed with water.

Abstract: A process for cleaning plastic materials is disclosed, in which foreign materials adhered on and internally intruded into the plastic materials are cleaned to recycle the plastic materials. The process for cleaning plastics to recycle them according to the present invention includes the following steps. (1) A first cleaning is carried out on roughly crushed plastics of a size of 2-3 cm by using a solvent within a dumbler. (2) The solvent is discharged out of the dumbler after the first cleaning. (3) A second cleaning is carried out on the plastics by using a solvent within the dumbler after the first cleaning. (4) The solvent is discharged out of the dumbler after the second cleaning. (5) The plastics are dried after the second cleaning by injecting a heated nitrogen gas into the dumbler. (6) The nitrogen gas is discharged out of the dumbler under a reduced pressure, whereby contamination materials adhered on surfaces and internally intruded are cleaned.

Abstract: An apparatus and method for washing a plurality of cored lettuce heads as they are harvested in the field is disclosed. The apparatus incorporates a multi-segment hinged conveyer forming a loop, at least one support platform having an opening, at least one lettuce head guide connected to the support platform and an aqueous solution spraying system. Workers harvest lettuce heads, core the lettuce heads and then place them on the lettuce head guides which are moving along the conveyer. The lettuce heads are conveyed to an aqueous solution spraying system which washes the cored areas of the lettuce heads. The lettuce heads are then removed from the conveyer into a produce bin.

Abstract: A method of stripping cured paint from reject painted production parts, aluminum and galvanized safe, comprising: a) adding a stripping composition to a strip tank, said stripping composition consisting an alkanolamine, a fatty acid and a surfactant; b) immersing said reject painted part in said strip tank containing said stripping composition; and c) heating said stripping composition to 300 degrees F. for approximately 1-hour, wherein cured paint is removed from said reject painted part with no attack on the base metal substrate.

Abstract: A water-free solution and method for dissolving and removing thermal grease from a high frequency logic device (e.g. a microprocessor in the form of a BGA and ASIC in the form of Quad Flat Pack component) assembled onto an electronic card which needs to be reworked. The method and solution of the present invention allow the complete removal of the grease by a simple and fast process, using an alcoholic, inert and cheap solution, without needing a mechanical action (e.g. brushing) and without damaging the card components. Furthermore, given the low surface tension of the alcoholic solution a good diffusion within the small holes and spaces of the card is ensured.

Abstract: A non-aqueous rinsing medium is disclosed, and a process for using same as a rinsing agent in a process for spray-coating of mass-produced substrates (such as automobile bodies) with frequent changes between at least one aqueous and at least one non-aqueous coating agent inside a spray-coating chamber, wherein with at least each change of coating agent the installations to be rinsed are rinsed automatically with the non-aqueous rinsing medium consisting of (a) 20 to 35% by weight of one or more N-alkyl pyrrolidones, (b) 20 to 35% by weight of butyl acetate and/or isobutyl acetate, (c) 10 to 20% by weight of one or more glycol ethers, which are water-miscible without miscibility gap, (d) 5 to 15% by weight of ethanol, propanol and/or isopropanol, (e) 10 to 20% by weight of one or more aliphatic C4-C7-ketones, (f) 0 to 5% by weight of one or more organic solvents conventionally used in coating agents, and (g) 0 to 5% by weight of one or more auxiliary agents, whereby components (a), (c) and (d) comprise

Abstract: A process for selectively deleading a plumbing component made of a lead-containing copper alloy. The process comprises traditional pickling the component, washing the component, dipping the component in a deleading bath comprising at least one carboxylic acid selected from the group consisting of formic acid, acrylic acid, propionic acid and butyric acid and traditionally finishing the component.

Abstract: The present invention relates to a method for cleaning heavy hydrocarbon scale from a shell and tube heat exchanger or other such equipment incorporated in a device in a petroleum refining plant or the like that processes petroleum hydrocarbons as a raw material. A mixture of petroleum-derived hydrocarbon A which can dissolve the oil component of the heavy hydrocarbon scale and an oxygen-containing polar organic compound B that promotes dissolution and dispersion is employed as the organic cleaning solvent. As a result, the heavy hydrocarbon scale can be removed with surety within a short period of time at low cost.

Abstract: Disclosed is a method for decontaminating PCB-containing transformers to obtain treated transformers containing less than 50 parts per million (ppm) polychlorinated biphenyls (PCB). The transformer is initially drained of all PCBs, then the core/coil assembly is removed. The internal surfaces of the transformer are then cleaned using a solvent. Finally, a new core/coil assembly is installed. The method is simple and can be completed within a substantially shorter period of time than methods known in the art.

Abstract: Provided is a method for cleaning hydrophobic surfaces, such as low K dielectric organic or inorganic surfaces as well as metallization surfaces of a semiconductor wafer. The method includes: (a) applying a surfactant solution to the surface; (c) scrubbing the surface; and (c) spin-rinsing the surface of the substrate using de-ionized water to complete a removal of any contaminants from the surface. If needed, the surfactant solution can be mixed with a chemical enhancer, and the scrubbing can be performed in a brush system. The brush system may be configured to apply DI water using a through the brush (TTB) technique. The surfactant solution can be applied either using a drip technique or using the TTB technique.

Abstract: To provide a photomask cleaning method which brings about a high effect of removing residual sulfuric acid or foreign objects and can remove foreign objects effectively without fluctuating the transmission or other properties of the light-shielding layer (MoSiON film) in a phase shift photomask.

Abstract: Apparatuses for cleaning wafers used in integrated circuit devices comprise: (1) a dry cleaning section comprising inert gas storage bath, a hydrogen fluoride gas storage bath, and a vapor storage bath containing a component selected from the group consisting of water vapor, alcohol vapor, and mixtures thereof and a gas mixer, wherein the inert gas storage bath, the hydrogen fluoride gas storage bath, and the vapor storage bath are in communication with the gas mixer; (2) a wet cleaning section comprising a first bath for storing a fluoride; a second bath for storing a liquid alcohol; and a cleaning solution storage bath in communication with the first bath and second bath, wherein the fluoride and the liquid alcohol form a cleaning solution which is stored in the cleaning solution storage bath; and (3) a common cleaning bath positioned between and in communication with the dry cleaning section and the wet cleaning section.

Abstract: A repairing method of a petroleum refining plant for efficiently conducting cleaning process of process equipment and pipings, unloading process of agglomerated catalyst, rinsing work of the process equipment and the pipings, thereby reducing plant shutdown time, preventing stress-corrosion cracking by polythionic acid, improving production efficiency, ensuring work safety and reducing production cost, is provided. For the object, the repairing method of the petroleum refining plant of the present invention has a first step of cleaning the process equipment and the pipings and softening agglomerated catalyst inside the process equipment, second step of rinsing the process equipment and the pipings and coating a surface of the softened catalyst by a coating agent, and third step of dumping the coated catalyst from the process equipment and re-rinsing the process equipment and the pipings.

Abstract: A cleaning medium for use in cleaning printing forms includes either an acid solution having a pH of from 1 to 4 or a basic solution having a pH of from 10 to 14. A dispersible abrasive agent in a concentration of from 1 to 15 grams per 100 grams of the cleaning composition, a surfactant in a concentration of from 1 to 50 grams per 100 grams of the cleaning composition, an organic solvent in a concentration of from 10 to 50 grams per 100 grams of the cleaning composition, and additional water if needed are added to the acid or basic solution to form the cleaning medium. A cleaning medium in concentrate form is also provided.

Abstract: A peracetic acid disinfectant is used to clean particulate inorganic materials such as calcium and magnesium from fibers and filters. The method allows polysulfone filtens in particulate to be reused after soaking for at least about 18 hours, and most preferably at least about 24 hours, in the peracetic acid based solution. The cleaned filters have been shown to have a reuse life of in excess of 30% and up to about 60-80% of the original life of the filter. The peracetic acid solution and method may be used to clean both hollow fiber and pleated polysulfone filters.

Abstract: A composition and process for cleaning inks and organic residues from various substrates utilizing dimethyl piperidone and other safe solvents is revealed. The composition and process are particularly useful in cleaning printing plates and printing apparatus.

Abstract: A method for cleaning polyethylene terephthalate containers including contacting the PET container with an alkaline wash solution having a temperature ranging of less than about 60° C. is disclosed. The alkaline wash solution is formulated from a first concentrate, a second concentrate, an alkalinity source, and a balance of water. The first concentrate preferably has a first nonionic surfactant, a first builder, and acid in an amount effect to provide a phase stable solution. The second concentrate preferably has a second nonionic surfactant and a second builder. The first and second concentrate are present in the wash solution in a concentration ranging from about 0.3 wt. % to 2.0 wt. %. Preferably, the first nonionic surfactant has a cloud point ranging from about 5° C. to 60° C.

Abstract: A method for the removing of plasma etch residues on a substrate comprising the steps of: (i) contacting the substrate with a cleaning composition, and (ii) contacting the substrate with ozonated water. The preferred cleaning composition has a pH from 2 to 6 and comprises: (A) water; (B) at least one selected hydroxylammonium compound; and (C) at least one basic compound; and optionally (D) a chelating stabilizer; and optionally (E) a surfactant.

Abstract: The present invention relates to cleaning compositions which, as powder or as aqueous formulation, comprise sodium bicarbonate and, as dispersants, polyaspartic acids and/or salts thereof, to the use of these cleaning compositions for the abrasive cleaning of hard surfaces, and also to a method of cleaning surfaces contaminated with deposits using these cleaning compositions.

Abstract: “The present invention is a process for cleaning a cathode tube and other subassemblies in a hollow cathode assembly. In the disclosed process, hand covering elastomer gloves are used for handling all cathode assembly parts. The cathode tube and other subassemblies are cleaned with a lint-free cloth damped with acetone, then wiped with alcohol, immersed in ethyl alcohol or acetone, and ultrasonic agitation is applied, heating to 60° C. for ethyl alcohol or 56° C. for acetone. The cathode tube and other sub assemblies are dried by blowing with nitrogen gas.

Abstract: A process for descaling, derusting, dissolving, and removing machining lubricants coated on steel and other iron alloy objects, the process comprising the steps of: (a) providing an alkaline cleaning solution consisting of: water; about 2.5% to 25% by weight of a water-soluble alkali; about 2% to 8% by weight of sodium gluconate; about 5% to 20% by weight of sodium xylene sulfonate; and about 2% to 20% by weight of a water-soluble surfactant consisting of C9-C11 alcohol ethoxylates and 6 ppm of ethylene oxides; and (b) contacting the soiled object with the alkaline cleaning solution at a temperature of about 60° F. to 200° F. for about 3 to 30 minutes, wherein the object is descaled, derusted, and the machining lubricant is dissolved and removed.

Abstract: A method and composition for removing deposits of heavy hydrocarbonaceous materials and finely divided inorganic particulate matter from wellbore and flowline surfaces using a composition containing an alkyl polyglycoside, an ethoxylated alcohol, a caustic and an alkyl alcohol.

Abstract: A solution for mildew removal, which includes an aqueous solution of 1-2%(weight by volume) sodium perborate and a non-ionic detergent added as a surfactant. A method for mildew removal, which includes mixing sodium perborate in an aqueous solution wherein the sodium perborate is 1-2% weight by volume, adding a non-ionic detergent to the solution, applying the solution to an infected area, and rinsing the infected area.

Abstract: A method for cleaning a surface by flooding and thereby cleaning a surface contaminated with deposits with a mixture containing water, wood chippings, and optionally, polyaspartic acid or a derivative of a polyaspartic acid.

Abstract: A terpene-free hard surface cleaning composition containing: (a) a nonionic surfactant; (b) an anionic surfactant; (c) a primary solvent consisting of a C6-C14 methyl ester; (d) a short-chain cosurfactant; and (e) water, all weights being based on the total weight of the composition.

Abstract: A diving mask fog wiping device and method which allows fog on the inside of the viewing face plate to be wiped by a slave unit which is magnetically coupled to a master unit on the opposite side of said viewing face plate. Further, the slave unit is magnetically coupled to a resting unit which keeps it out of the line of sight and near the surface of the viewing face plate while it is not being used for wiping. A porous and nonabrasive surface on the slave unit may be soaked in an antifog agent, allowing the agent to be applied and re-applied every time fog is wiped.

Abstract: A method of emptying vessels containing dispersions, solutions or suspensions of polymers in which during the emptying process the liquid medium also used to take up the polymers into the dispersion, solution or suspension is passed into the space within the vessel that is not filled by the solution, dispersion or suspension, wherein the liquid medium used to take up the polymers into the dispersion, solution or suspension is introduced in vapor form.

Abstract: A nontoxic sanitizing cleaner comprising an organic acid having a pH less than 3, a chelating agent, and a surfactant. The invention also contemplates a buffering agent in the cleaner. In a preferred embodiment, the sanitizing cleanser is in the form of a solution containing 94% citric acid, 4% EDTA, 1% sodium laurel sulfate, and 1% monosodium phosphate, by weight. The invention also contemplates using the nontoxic sanitizing cleaner in a cosmetic lotion, and in processes for cleaning and sanitizing food processing equipment.

Abstract: A method for washing cored heads of lettuce includes placing such heads in a position with their cored holes facing downwardly toward an upwardly-directed spray of an aqueous solution, directing such a spray into, and washing the holes, then pushing the heads from that position onto a conveyor.