The invention includes ware detergent compositions which provides superior cleaning and removal of oily and fatty soils, without the production of excessive foam. According to the invention applicants have discovered that use of a quaternary cationic surfactant in combination with a nonionic low foaming surfactant can provide oily soil removal from ware that is superior to traditional warewash detergent formulations. Compositions for alkaline, preferably solid, warewash detergents are disclosed, as well as their use in dish machines and methods of manufacture.

The invention includes ware detergent compositions which provides superior cleaning and removal of oily and fatty soils, without the production of excessive foam. According to the invention applicants have discovered that use of a quaternary cationic surfactant in combination with a nonionic low foaming surfactant can provide oily soil removal from ware that is superior to traditional warewash detergent formulations. Compositions for alkaline, preferably solid, warewash detergents are disclosed, as well as their use in dish machines and methods of manufacture.

Method for treating a textile under industrial and institutional fabric care conditions to impart softness within a single wash and/or rinse cycle are disclosed. More particularly, the present invention relates to a combination of a liquid or solid fabric conditioning composition and a softening booster for treating a textile to impart softness within a single wash and/or rinse cycle. Compositions employed therein are further disclosed

Method for treating a textile under industrial and institutional fabric care conditions to impart softness within a single wash and/or rinse cycle are disclosed. More particularly, the present invention relates to a combination of a liquid or solid fabric conditioning composition and a softening booster for treating a textile to impart softness within a single wash and/or rinse cycle. Compositions employed therein are further disclosed

Compositions comprising a neutral surfactant or a reaction product thereof and a reaction product of a saccharide polymer and a fatty acid may be obtained in the presence of water and a hydroxide base (optionally in the presence of the neutral surfactant), the saccharide polymer comprising a dextran, a dextrin compound, or any combination thereof. The reaction product of the saccharide polymer and the fatty acid may be present at a concentration effective to lower surface tension of the neutral surfactant. Depending on the fatty acid identity, among other factors, the compositions may promote emulsification or de-emulsification. In addition, the compositions may promote foam formation under appropriate conditions. Treatment fluids comprising the compositions, including foamed treatment fluids, may be introduced into a subterranean formation to perform a treatment operation in which fluid emulsification or de-emulsification may occur. The reaction products may be incorporated in soaps and other personal care products.

Compositions comprising a neutral surfactant or a reaction product thereof and a reaction product of a saccharide polymer and a fatty acid may be obtained in the presence of water and a hydroxide base (optionally in the presence of the neutral surfactant), the saccharide polymer comprising a dextran, a dextrin compound, or any combination thereof. The reaction product of the saccharide polymer and the fatty acid may be present at a concentration effective to lower surface tension of the neutral surfactant. Depending on the fatty acid identity, among other factors, the compositions may promote emulsification or de-emulsification. In addition, the compositions may promote foam formation under appropriate conditions. Treatment fluids comprising the compositions, including foamed treatment fluids, may be introduced into a subterranean formation to perform a treatment operation in which fluid emulsification or de-emulsification may occur. The reaction products may be incorporated in soaps and other personal care products.

Pre-dosed wipes and packaged systems of such wipes including a nonwoven substrate formed from renewable natural plant-based fibers or derivatives of such fibers. The pre-dosed wipe as a whole meets applicable biodegradability/compostability standards (e.g., ASTM D6400, EN13432 or the like). The wipe may be a sanitizing or disinfecting wipe, including a quaternary ammonium compound as an antimicrobial agent in the composition with which the substrate is dosed. The composition may also include water and a surfactant. The wipe may be substantially void of thermoplastic fibers, such as PE, PP, PET, as well as so-called biodegradable polyesters and the like (e.g., PHA, PLA, PVOH). The nonwoven substrate may be formed by any of various techniques, an example of which is spunlace. The formulation may have a pH of at least 5 (e.g., 6 to 8), to maintain tensile strength of the natural plant-based substrate.

A natural cleaning and herbicide composition having an quaternary ammonium compound, one or more additional amine-based surfactants, and an herbicidally active limonene component, that synergistically creates an effective COVID-19 disinfectant in wipes, an effective clearer for bulk cleaning applications, as well as an impressive gross soils remover following EPA protocol. The composition may further contain sodium silicate, tetrasodium iminodisuccinate, an ethanolamine, caustic potash, and/or water. A formulation of the present disclosure comprises a mixture of about 74% soft water, about 1% Tetrasodium Iminodisuccinate, about 0.5% Monoethanolamine, about 0.5% Sodium Silicate, about 2% alkali surfactant, about 12% Ethoxylated Amine, about 1% Amine Oxide, about 1% Quaternary Amine, and about 6% Limonene.

A natural cleaning and herbicide composition having an quaternary ammonium compound, one or more additional amine-based surfactants, and an herbicidally active limonene component, that synergistically creates an effective COVID-19 disinfectant in wipes, an effective clearer for bulk cleaning applications, as well as an impressive gross soils remover following EPA protocol. The composition may further contain sodium silicate, tetrasodium iminodisuccinate, an ethanolamine, caustic potash, and/or water. A formulation of the present disclosure comprises a mixture of about 74% soft water, about 1% Tetrasodium Iminodisuccinate, about 0.5% Monoethanolamine, about 0.5% Sodium Silicate, about 2% alkali surfactant, about 12% Ethoxylated Amine, about 1% Amine Oxide, about 1% Quaternary Amine, and about 6% Limonene.

A unit dose fabric conditioner that contains a combination of a polyol, alkoxylated alcohol, and dispersing polymer to allow for incorporation of encapsulated fragrance slurries into unit dose fabric conditioners to disperse the encapsulated fragrance and fabric conditioner active during laundering.