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; (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. The method provides a Capillary Number of less than about 1000.

A web of cleaning products and a method of manufacturing the same is disclosed. The web includes a carrier sheet having a plurality of depressions each filled, and in direct contact with, at least one cleaning composition. A plurality of internal lids that correspond with the plurality of depressions are sealed to the carrier sheet in a manner covering the plurality of depressions. Additionally, a plurality of external lids that correspond with the plurality of internal lids are sealed to the carrier sheet and cover the plurality of internal lids. The carrier sheet and external lids may be made of a water-resistant material, and the internal lids may be made of a water-soluble material. In one embodiment, the internal lids may be omitted, and instead the depressions be filled with water-soluble pouches, each of which contains a respective dose of a cleaning composition.

Liquid detergent composition including encapsulated enzymes and uses thereof.

Liquid detergent composition that includes encapsulated enzymes. Related uses and methods.

A detergent composition includes a surfactant component in an amount of about 20 to about 75 weight percent actives based on a total weight of the detergent composition. The surfactant component includes an alkyl ether sulfate, an alkoxylated alcohol, and a linear alkylbenzene sulfonate. The alkyl ether sulfate is present in an amount of greater than about 20 weight percent actives based on a total weight of the surfactant component. The linear alkylbenzene sulfonate is present in an amount of less than about 40 weight percent actives based on a total weight of the surfactant component. The detergent composition also includes water present in a total amount of from about 10 to about 80 weight and an alkyl dialkylamine oxide present in an amount of from about 0.1 to about 10 weight percent actives, each based on a total weight of the detergent composition.

A method is disclosed. The method includes providing a cleaning member formed from a consumable cleaning material and including a cavity formed by one or more interior walls of the cleaning member, inserting a cleaning member remnant through an aperture of the cavity formed at a first end surface of a first end portion of the cleaning member, providing and holding a fluid in the cavity holding the cleaning member remnant when the first end surface is facing upward, and attaching the cleaning member remnant to the one or more interior walls based on holding the fluid.

A method is disclosed. The method includes providing a cleaning member formed from a consumable cleaning material and including a cavity formed by one or more interior walls of the cleaning member, inserting a cleaning member remnant through an aperture of the cavity formed at a first end surface of a first end portion of the cleaning member, providing and holding a fluid in the cavity holding the cleaning member remnant when the first end surface is facing upward, and attaching the cleaning member remnant to the one or more interior walls based on holding the fluid.

A shaped detergent product comprising 10 to 100 wt. % of a first solid phase and 0 to 90 wt. % of one or more other phases, wherein the first solid phase comprises: a) non-crystalline chiral aminopolycarboxylate; b) non-crystalline organic acid other than component a); c) at most 30 wt. % water; d) at most 50 wt. % of non-crystalline water-soluble component other than component a) or component b); e) at most 20 wt. % of homogeneously dispersed crystalline material; wherein the combination of the components a), b) and c) is present in the first solid phase in a concentration of at least 35 wt. % of the total weight of the solid phase; and wherein components a), b) and c) are present in the solid phase in a ratio of from 25 to 88 parts by weight of free acid equivalent of component a): from 10 to 60 parts by weight of free acid equivalent of component b): from 2 to 30 parts by weight of component c); and wherein the shaped detergent product comprises at least 0.5 wt. % surfactant.

The present invention relates to a cleaning implement that includes a melamine-formaldehyde foam. The melamine-formaldehyde foam cleaning implement has a d90/d10 ratio above 1.65 and a compression deflection force above 3.25 psi. Additionally the present invention encompasses processes for making and methods for cleaning hard surfaces with a cleaning implement according to the present invention.

A drain treatment system includes a supply interface, a drainage interface, a water distribution assembly, a pod housing, and a controller. The supply interface is configured to connect to a water supply, the drainage interface is configured to connect to a drain, and the distribution assembly is configured to receive water from the water supply via the supply interface. The pod housing is configured to retain at least one pod containing a drain treatment compound, and the controller is configured to control a transfer of the water from the water distribution assembly to the pod housing, wherein the water is configured to carry the drain treatment compound from the at least one pod to the drainage interface for delivery to the drain.