A cleaning system is provided for a printing press recirculation system, in which the cleaning system generates a plurality of bubbles within a fountain solution of the printing press recirculation system. The cleaning system includes (i) a first composition comprising a solid blend including (a) a first alkaline cleaning agent having a first alkaline strength, (b) a detergent salt, (c) a non-foaming emulsifying agent, and (d) a second alkaline cleaning agent having a second alkaline strength, in which the first alkaline strength is greater than the second alkaline strength; (ii) a second composition comprising one or more organic acids. Also provided are methods of cleaning a printing press recirculation system.

A cleaning system is provided for a printing press recirculation system, in which the cleaning system generates a plurality of bubbles within a fountain solution of the printing press recirculation system. The cleaning system includes (i) a first composition comprising a solid blend including (a) a first alkaline cleaning agent having a first alkaline strength, (b) a detergent salt, (c) a non-foaming emulsifying agent, and (d) a second alkaline cleaning agent having a second alkaline strength, in which the first alkaline strength is greater than the second alkaline strength; (ii) a second composition comprising one or more organic acids. Also provided are methods of cleaning a printing press recirculation system.

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 300° F.) but also shows enhanced cleaning at ambient temperatures.

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 300° F.) but also shows enhanced cleaning at ambient temperatures.

The present disclosure relates to detergent compositions effective for soil removal, particularly for the removal of starch soils. The compositions described herein may be used to remove soil from a surface including both hard and soft surfaces, most preferably on ware. Preferably, the detergent compositions comprise a detergent, a bleach, and an enzyme. Methods of making and using the detergent compositions for the removal of starch are also described herein.

The present disclosure relates to detergent compositions effective for soil removal, particularly for the removal of starch soils. The compositions described herein may be used to remove soil from a surface including both hard and soft surfaces, most preferably on ware. Preferably, the detergent compositions comprise a detergent, a bleach, and an enzyme. Methods of making and using the detergent compositions for the removal of starch are also described herein.

The subject invention provides microbe-based products, as well as their use to improve oil production and oil transmission and refining by, for example, remediating the disposable layers in oil tanks and other oil storage units. The subject invention can be used to remediate a sludge layer and/or other dissolved solid layers that form in oil storage tanks. Advantageously, the subject invention can decrease the cost of mechanical remediation of disposable layers, and aid in the recover).sup., of more pure hydrocarbons from crude fluids.

The subject invention provides microbe-based products, as well as their use to improve oil production and oil transmission and refining by, for example, remediating the disposable layers in oil tanks and other oil storage units. The subject invention can be used to remediate a sludge layer and/or other dissolved solid layers that form in oil storage tanks. Advantageously, the subject invention can decrease the cost of mechanical remediation of disposable layers, and aid in the recover).sup., of more pure hydrocarbons from crude fluids.

The present disclosure provides compositions for fabric treatment having at least one dye transfer inhibitor (DTI), at least one water-soluble carrier, at least one fragrance, and at least one buffer system, and other optional ingredients. During a wash cycle, the compositions disclosed herein significantly boost color fading protection of fabrics. The present disclosure further provides a method of making a composition for fabric treatment, including mixing a water-soluble carrier and a buffer system to form a mixture; adding a dye transfer inhibitor (DTI) and a fragrance into the mixture; mixing the mixture; heating the mixture and obtaining a melt thereby; and cooling the mixture. The method can further include shaping the melt into individual particles having melt bodies, which can optionally be in the form of a pastille.

The present disclosure provides compositions for fabric treatment having at least one dye transfer inhibitor (DTI), at least one water-soluble carrier, at least one fragrance, and at least one buffer system, and other optional ingredients. During a wash cycle, the compositions disclosed herein significantly boost color fading protection of fabrics. The present disclosure further provides a method of making a composition for fabric treatment, including mixing a water-soluble carrier and a buffer system to form a mixture; adding a dye transfer inhibitor (DTI) and a fragrance into the mixture; mixing the mixture; heating the mixture and obtaining a melt thereby; and cooling the mixture. The method can further include shaping the melt into individual particles having melt bodies, which can optionally be in the form of a pastille.