An example system comprises a water-soluble unit dose article comprising a water-soluble fibrous non-woven sheet and a granular laundry detergent. The water-soluble fibrous non-woven sheet is shaped to form a partially sealed internal compartment and has an air permeability comprised between 5 m.sup.3/m.sup.2/min and 200 m.sup.3/m.sup.2/min. The granular laundry detergent is comprised within said internal compartment and comprises a plurality of particles, wherein the plurality of particles comprises zeolite particles. The system comprises sealing jaws, wherein at least one of the sealing jaws is a heated sealing jaw, wherein a bottom seal of the internal compartment is sandwiched between the jaws. The jaws comprise a non-stick coating in contact with the bottom seal and a first dust extraction conduct to direct a gas flow away from an area surrounding a top section of the sealing jaws or away from a bottom section of the internal compartment.

A laundry scent additive having polyethylene glycol and perfume. The laundry scent additive enables consumers to control the amount of scent imparted to their laundry.

A laundry scent additive having polyethylene glycol and perfume. The laundry scent additive enables consumers to control the amount of scent imparted to their laundry.

A multicompartment water-soluble unit dose article that includes at least a first compartment and a second compartment: (a) where the first compartment includes a first composition that is a free-flowing non-compressed particulate composition, and where the first composition includes a fabric softening ingredient; and (b) where the second compartment includes a second composition that is a liquid composition, the liquid composition including less than 5% by weight of the liquid composition of a structuring agent, less than 15% by weight of the unit dose article of water and between 5% and 35% by weight of the unit dose article of non-aqueous solvent; and where the weight ratio of the first composition to the second composition is between 2:1 and 1:25.

The invention relates to a degreasing mixture for removing grease, oils, or similar hydrophobic components from a surface of a substrate. The degreasing mixture contains a solvent-free silicate mixture as the main component. The silicate mixture contains granules of phyllosilicate and granules of tectosilicate. Up to 90% by mass of the granules contained in the silicate mixture has a particle size of less than 60 m, and the maximum particle size of the granules of phyllosilicate is smaller than the maximum particle size of the granules of tectosilicate.

The present invention discloses a method for manufacturing a laundry detergent, characterized by the following steps: (a) incorporating oxygen donors and their activators in a waxy matrix which is surrounded by an ionic polymer layer for providing a capsule system, (b) incorporating the capsule system into a liquid washing detergent. Furthermore, a liquid washing detergent is disclosed, characterized by a capsule system comprising a waxy matrix which is surrounded by an ionic polymer layer and into which oxygen donors and their activators are incorporated. Furthermore, a method for manufacturing a heavy-duty laundry detergent wipe is disclosed, characterized by the following steps: (a) incorporating oxygen donors and their activators in a waxy matrix which is surrounded by an ionic polymer layer for providing a capsule system, (b) incorporating the capsule system into a dispersion comprising a liquid washing detergent and a water insoluble functional additive, (c) applying the dispersion provided with the capsule system to a carrier material which is solid at ambient temperature. Furthermore, a method for manufacturing a heavy-duty laundry detergent wipe is disclosed, characterized by the following steps: (a) incorporating oxygen donors and their activators in a waxy matrix which is surrounded by an ionic polymer layer for providing a capsule system, (b) incorporating the capsule system into a carrier material which is solid at ambient temperature, (c) applying a dispersion comprising a liquid washing detergent and a water insoluble functional additive to the carrier material provided with the capsule system. Furthermore, a heavy-duty laundry detergent wipe is disclosed, comprising a carrier material which is solid at ambient temperature and a dispersion comprising a liquid washing detergent and a water insoluble functional additive and which has been applied to the carrier material, characterized in that the heavy-duty detergent wipe further comprises a capsule system which has been incorporated into the dispersion or directly into the carrier material and which comprises oxygen donors and their activators incorporated into a waxy matrix surrounded by an ionic polymer layer.

The aim of the invention is to improve the cleaning power of washing and cleaning agents, especially with regards to bleachable stains, while avoiding any damage to the textile treated with said washing and cleaning agents. This is achieved by an aqueous washing liquid in a device for cleaning textile substrates, containing a plurality of water in-soluble solid particles and a mediator compound, which can produce an oxidizing bleaching agent, in an electrochemical cell using electric voltage in the washing liquid.

The invention relates to an aqueous detergent solution in a device for cleaning soiled textile substrates, said solution containing a plurality of water-insoluble solid particles and a detergent containing polyalkoxylated polyamines.

A laundry scent additive having polyethylene glycol repeat units and perfume. The laundry scent additive enables consumers to control the amount of scent imparted to their laundry.

The invention provides a method and formulation for cleaning a soiled substrate, the method comprising the treatment of the moistened substrate with a formulation comprising a multiplicity of polymeric particles, wherein the polymeric particles comprise at least one antimicrobial agent. Preferably, the substrate is wetted so as to achieve a substrate to water ratio of between 1:0.1 to 1:5 w/w. Optionally, the formulation additionally comprises at least one additional cleaning agent, and in this embodiment, it is preferred that the polymeric particles are mixed with the at least one additional cleaning agent. Preferably, the additional cleaning material comprises a surfactant, which most preferably has detergent properties. Most preferably, the substrate comprises a textile fiber. Typically, the polymeric particles comprise particles of polyester or nylon, most preferably in the form of beads. The results obtained are very line with those observed when carrying out conventional aqueous cleaning processes and the method provides the significant advantage that the use of antimicrobial agents in or on the polymer bead greatly improves the overall hygiene in the washing machine by preventing mold and bacterial growth on the polymer particle surfaces, particularly at low temperatures.