Patent application number | Description | Published |
20090203567 | USE OF ACTIVATOR COMPLEXES TO ENHANCE LOWER TEMPERATURE CLEANING IN ALKALINE PEROXIDE CLEANING SYSTEMS - The present invention provides for the use of activator complexes to enhance lower temperature cleaning in alkaline peroxide cleaning systems. Compositions including an activator complex, an active oxygen source, and a source of alkalinity are applied to the surface to be cleaned at temperatures between about 5° C. and about 50° C. The methods of the present invention provide for enhanced soil removal with reduced energy, water, and chemistry consumption. | 08-13-2009 |
20090288683 | ALKALINE PEROXYGEN FOOD SOIL CLEANER - The present invention relates to compositions and methods for removing soils, e.g., thermally degraded food soils, from surfaces. The cleaning compositions of the present invention can be activated using heat and/or an activator complex to generate oxygen gas in situ on and in the soil to be removed. Surfaces suitable for cleaning using the compositions and methods of the present invention include any surface that can be heated during use and/or cleaning, e.g., smokers, ovens, fryers. | 11-26-2009 |
20090325841 | USE OF ACTIVATOR COMPLEXES TO ENHANCE LOWER TEMPERATURE CLEANING IN ALKALINE PEROXIDE CLEANING SYSTEMS - The present invention provides for the use of activator complexes to enhance lower temperature cleaning in alkaline peroxide cleaning systems. Compositions including at least one of an activator complex, an active oxygen source, and a source of alkalinity are applied to the surface to be cleaned at temperatures between about 5° C. and about 50° C. The methods and compositions of the present invention provide for enhanced soil removal with reduced energy, water, and chemistry consumption. | 12-31-2009 |
20100317559 | HIGH ALKALINE CLEANERS, CLEANING SYSTEMS AND METHODS OF USE FOR CLEANING ZERO TRANS FAT SOILS - The present disclosure relates to high alkaline cleaners, cleaning systems and methods for removing polymerized zero trans fat soils. The high alkaline cleaner of the present invention generally includes one or more alkaline wetting and saponifying agent(s), a chelating/sequestering system and a surface modifying-threshold agent system. In various embodiments, the cleaners may include, at least one cleaning agent comprising a surfactant or surfactant system and/or a solvent or solvent system and/or a cleaning booster such as a peroxide or sulfite type additive. The cleaners may also include one or more components to modify the composition form and/or the application method in some embodiments. All components described above may also be optimized optionally, to provide emulsification of a composition (both as a usable product or a concentrate that can be diluted to form a usable product). The use of the high alkaline cleaner of the present invention has demonstrated enhanced cleaning characteristics especially at higher temperatures (100° F. to about 200° F.) but also shows enhanced cleaning at ambient temperatures. | 12-16-2010 |
20100317560 | HIGH ALKALINE SOLVENT-BASED CLEANERS, CLEANING SYSTEMS AND METHODS OF USE FOR CLEANING ZERO TRANS FAT SOILS - The present invention relates to high alkaline-solvent cleaners, cleaning systems and methods for removing polymerized zero trans fat soils. The high alkaline-solvent cleaner of the present invention generally includes one or more soil wetting and cleaning solvent(s) and one or more alkaline wetting and saponifying agent(s) that wets and saponifies the soil. In various embodiments, the cleaners may include, at least one cleaning agent comprising a surfactant or surfactant system and/or a at least one chelating/sequestering/threshold agent. In some embodiments, the cleaners may include one or more components to modify the composition form and/or the application method. All components described above can also be optimized optionally, to provide emulsification of a composition (both as a usable product or a concentrate that can be diluted to form a usable product). The use of the high alkaline-solvent cleaner of the present invention has demonstrated enhanced cleaning characteristics especially at ambient temperatures and showing increased cleaning with increased temperatures in comparison to other conventional cleaning techniques. | 12-16-2010 |
20110082231 | DETERGENT RESISTANT CAR POLISH - A detergent resistant car polish composition includes an alkoxy aminofunctional dialkylpolysiloxane, a long chain silicone quaternary blend, a silicone fatty amino quaternary polydimethylsiloxane, a carboxylic acid, a surfactant, a cosurfactant, and water. | 04-07-2011 |
20130096045 | MODERATELY ALKALINE CLEANING COMPOSITIONS FOR PROTEINACEOUS AND FATTY SOIL REMOVAL AT LOW TEMPERATURES - The present invention comprises chlorinated and non-chlorinated alkaline cleaning compositions for removal of proteinaceous and fatty soils at low temperature, i.e. less than 120° F., with little or no deleterious affect on cleaning performance. According to the invention, applicants have found that adding additional alkalinity makes protein removal more difficult and reducing the amount of alkalinity actually improves performance. According to the invention optimized combinations of chlorine and alkalinity components for low temperature cleaning as well as a surfactant system optimized for low temperature fatty soil removal are disclosed. | 04-18-2013 |
20130264059 | USE OF PERACETIC ACID/HYDROGEN PEROXIDE AND PEROXIDE-REDUCING AGENTS FOR TREATMENT OF DRILLING FLUIDS, FRAC FLUIDS, FLOWBACK WATER AND DISPOSAL WATER - Methods for the use of peracid compositions having decreased hydrogen peroxide concentration and a UV-blocking agent for various water treatments, including oil- and gas-field operations, and/or other aseptic treatments are disclosed. In numerous aspects, peracetic acid is the preferred peracid and is treated with a peroxide-reducing agent to substantially reduce the hydrogen peroxide content. Methods for using the treated peracid compositions for treatment of drilling fluids, frac fluids, flow back waters and disposal waters are also disclosed for improving water condition, reducing oxidizing damage associated with hydrogen peroxide and/or reducing bacteria infestation | 10-10-2013 |
20130264293 | USE OF PERACETIC ACID/HYDROGEN PEROXIDE AND PEROXIDE-REDUCING AGENTS FOR TREATMENT OF DRILLING FLUIDS, FRAC FLUIDS, FLOWBACK WATER AND DISPOSAL WATER - Methods for the use of peracid compositions having decreased hydrogen peroxide concentration for various water treatments, including oil- and gas-field operations, and/or other aseptic treatments are disclosed. In numerous aspects, peracetic acid is the preferred peracid and is treated with a peroxide-reducing agent to substantially reduce the hydrogen peroxide content. Methods for using the treated peracid compositions for treatment of drilling fluids, frac fluids, flow back waters and disposal waters are also disclosed for improving water condition, reducing oxidizing damage associated with hydrogen peroxide and/or reducing bacteria infestation | 10-10-2013 |
20140041686 | HIGH FLASHPOINT ALCOHOL-BASED CLEANING, SANITIZING AND DISINFECTING COMPOSITION AND METHOD OF USE ON FOOD CONTACT SURFACES - The invention is directed to a high flashpoint alcohol based cleaning, sanitizing and disinfecting composition and its method of use on food contact surfaces. More particularly, the present invention relates to a quick drying and ready to use cleaning and sanitizing formula with an isopropyl alcohol level low enough to permit a reduced flammability rating while maintaining microbiological sanitizing and disinfecting properties. | 02-13-2014 |
20140332463 | REDUCTION OF HYDROGEN SULFIDE AND/OR MALODOR GASSING FROM WATER VIA THE ADDITION OF PEROXYACETIC ACID/HYDROGEN PEROXIDE PRODUCT - The invention provides methods and compositions for reducing the malodorous sulfide gas released by a wastewater treatment system. The method preserves the vitality of waste consuming organisms within the system. The method comprises the steps of: determining the SRP PAA demand of the system, determining the aerobic PAA demand of the system, and adding a composition in an amount such that it is in excess of the SRP PAA demand but is below the aerobic PAA demand. Even though the composition increases the amount of sulfates within the wastewater it reduces the amount of SRP which prevents the malodorous sulfite gas release. The composition comprises at least one percarboxyacid. | 11-13-2014 |