A method of forming an aqueous treatment liquor comprising a benefit agent, the method comprising the steps of: (a) providing a consumer product comprising: (i) a porous dissolvable solid structure, and (ii) a hydrophobic coating comprising a benefit agent, the hydrophobic coating applied to the porous dissolvable solid structure, wherein the hydrophobic coating has a first viscosity; (b) providing an aqueous solution; and (c) dissolving the consumer product in the aqueous solution to form an aqueous treatment liquor comprising a hydrophobic portion and an aqueous portion, wherein the aqueous portion has a second viscosity. A ratio of the first viscosity of the hydrophobic coating to the second viscosity of the aqueous portion of the aqueous treatment liquor is less than about 100:1.

Microbial oil and fat cleaning agent composition block for drainpipes and a method of producing the same. Specifically, such a composition block accommodated in a drain cap for the inlet of a drainpipe so that oils and fats adhered to the drainpipe are biodegraded by powdery microorganisms present in the composition block to maintain smooth flow of sewage, prevent oil and fats from adhering onto the drainpipe from the cleaning agent, thus cleaning the inside of the drainpipe and removing odors. The dissolved cleaning agent is discharged with sewage through the drainpipe and is collected in a water collector, and oils and fats adhered to the water collector are biodegraded by the cleaning agent to remove odor inside the water collector, prevent adhesion of oils and fats to the water collector and thus maintain excellent water quality.

Microbial oil and fat cleaning agent composition block for drainpipes and a method of producing the same. Specifically, such a composition block accommodated in a drain cap for the inlet of a drainpipe so that oils and fats adhered to the drainpipe are biodegraded by powdery microorganisms present in the composition block to maintain smooth flow of sewage, prevent oil and fats from adhering onto the drainpipe from the cleaning agent, thus cleaning the inside of the drainpipe and removing odors. The dissolved cleaning agent is discharged with sewage through the drainpipe and is collected in a water collector, and oils and fats adhered to the water collector are biodegraded by the cleaning agent to remove odor inside the water collector, prevent adhesion of oils and fats to the water collector and thus maintain excellent water quality.

This invention refers to a synergistic composition of surfactants containing glycerine, monopropyleneglycol and organosilicone, to the procedure for preparing it and to the use of this composition as a superwetting agent.

This invention refers to a synergistic composition of surfactants containing glycerine, monopropyleneglycol and organosilicone, to the procedure for preparing it and to the use of this composition as a superwetting agent.

A method of treating a fabric, where the method includes a washing step and a rinsing step. A multi-component fabric treatment system, wherein the system includes a first component comprising a detergent composition, and where the system further includes a second component comprising a softener composition.

The embodiments herein disclose a composition for a non-medicated liquid cleaning solution for personal care and hygiene and a method of synthesizing the same. The composition comprises cyclomethicone, DC5225C, ethyl lactate, sesame oil, Vitamin E, organic castile soap, sweet orange oil or fragrances. For synthesizing the composition, the ingredients are procured. The castile soap is treated to remove water content. All the ingredients except cyclomethicone are mixed to obtain clear solution mixture. The clear solution mixture is added to cyclomethicone. The clear solution mixture and cyclomethicone are mixed to obtain a homogeneous mixture. The composition is sprayed or applied on tissue paper/toilet paper. The composition makes the tissue paper into a moist wipe used for cleaning the body parts like private body parts, groin, face, genital area, groin and rear end.

Dilutable concentrates useful for hard surface cleaners with improved film/streak performance on high-energy surfaces are disclosed. The concentrates comprise a nonionic alkoxylated surfactant and a polyetheramine. A relatively minor proportion of a polyetheramine can resolve film/streak issues that characterize hard surface cleaners formulated with nonionic surfactants. The efficacy of polyetheramines for improving film/streak performance of hard surface cleaners formulated with nonionic alkoxylated surfactants far exceeds the benefits available from known improvements, such as the use of hydrotropes. Other inventive dilutable concentrates and hard surface cleaners comprise an amine-functional hydrophobe and an auxiliary surfactant. Still other dilutable concentrates or hard surface cleaners comprise a nonionic alkoxylated surfactant and lactic acid. An improved method for measuring film/streak properties of hard surface cleaners is also disclosed.

The present disclosure relates to compositions and systems comprising fit retention polymers and methods of making and using the same. Methods of using such compositions including contacting a fabric with the fabric care composition are also disclosed.

A detergent comprising (A) a sulfobetaine type ampholytic surfactant, and (B) a quaternary ammonium cation-modified silicone. A mass ratio [(A)/(B)] of the component (A) to the component (B) is 0.1 or more and 1,000 or less.