The present invention is related to a sodium and potassium soap sponge and method of making it.

Natural green, environmentally friendly solid soap compositions and methods of manufacturing and using the same are provided with easy dispersal in water and self thickening to produce liquid soaps. The natural soap compositions contain potassium fatty acid carboxylates and preferably potassium chloride but may alternately contain potassium bromide or potassium iodide. There is a need for natural, green, environmentally friendly soaps as well as eco green packaging. Recent systems have managed eco packaging but continue to rely on synthetic non-natural fossil fuel based soaps. The inventive natural solid soaps do not require plastic or similar packaging for liquids and can be shipped as a solid bar, granules, powder, etc. and diluted very easily by the end user. Preferably the soaps are small bars that easily fit into a dispenser bottle offering versatility in concentration, lather, and thickness

Natural green, environmentally friendly solid soap compositions and methods of manufacturing and using the same are provided with easy dispersal in water and self thickening to produce liquid soaps. The natural soap compositions contain potassium fatty acid carboxylates and preferably potassium chloride but may alternately contain potassium bromide or potassium iodide. There is a need for natural, green, environmentally friendly soaps as well as eco green packaging. Recent systems have managed eco packaging but continue to rely on synthetic non-natural fossil fuel based soaps. The inventive natural solid soaps do not require plastic or similar packaging for liquids and can be shipped as a solid bar, granules, powder, etc. and diluted very easily by the end user. Preferably the soaps are small bars that easily fit into a dispenser bottle offering versatility in concentration, lather, and thickness

The product of the invention allows cleaning products to be obtained by substantially increasing the oil-to-soap conversion rate to minimise the amount of product to be used, with minimum energy use and maximum transformation speed, allowing work with large volumes of oil. For this purpose, the product for obtaining cleaning products from vegetable oils comprises the following composition in % by weight: sodium dodecyl sulphate (SDS) between 9 and 11%, anhydrous trisodium phosphate between 4.5 and 6%, sodium stearate between 0.1 and 0.3%, xanthan gum between 0.5 and 0.7%, optionally brightener and/or perfume, and the amount of water needed to reach 100%.

Described herein is a liquid composition including at least component (a) a polymer which is (a1) an ethoxylated hexamethylene diamine polymer, quaternized and optionally sulfated including on average 20 to 30 ethoxylate groups (EO) with an average molecular weight Mw in a range from 2,000 to 10,000 g/mol and mixtures thereof, and/or (a2) an ethoxylated polyethylenimine including on average 15 to 25 ethoxylate groups (EO) per NH-group with an average molecular weight M.sub.W in a range from 5,000 to 20,000 g/mol;
and
component (b) at least one cellulase.

The invention relates to a process to make high water bars with a high speed extrusion process by using specific types and amounts of electrolytes in combination. The bars are produced with no negatives generally associated with use of electrolytes. Disclosed is an extruded soap bar composition wherein the bar comprises: a) 20 to 40% of water; b) 20 to 75% by wt. anhydrous soap; wherein C.sub.16 to C.sub.24 saturated soap comprises 12% to 45% by wt. of total bar. c) structurants comprises at least from 0.05 to 35% by wt., wherein the specific level of structurants is defined by the level of C16 to C24 saturated soap of (b) such that the total level of said C.sub.16 to C.sub.24 saturated soap and structurants are greater than 25%, and wherein said structurants are selected from the group consisting of starch, carboxymethylcellulose, inorganic particulates, acrylate polymers and mixtures thereof; d) electrolyte which is a combination of alkali metal chloride; and a secondary electrolytes selected from the group consisting of alkali metal citrate and alkali metal sulfate; and wherein the concentration of alkali metal chloride ([alkali metal chloride]); and of alkali metal citrate ([alkali metal citrate]), alkali metal sulfate ([alkali metal sulfate]) defined by level of water we use as follows: i. [alkali metal chloride]%=0.075×[water]−0.626; and ii. [alkali metal citrate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; iii. [alkali metal sulfate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; or iv. [alkali metal citrate and alkali metal sulfate]=−0.0023×[water].sup.2+0.312×[water]−4.34, wherein the calculated amount of the concentration of the electrolyte is plus or minus 15%.

The invention relates to a process to make high water bars with a high speed extrusion process by using specific types and amounts of electrolytes in combination. The bars are produced with no negatives generally associated with use of electrolytes. Disclosed is an extruded soap bar composition wherein the bar comprises: a) 20 to 40% of water; b) 20 to 75% by wt. anhydrous soap; wherein C.sub.16 to C.sub.24 saturated soap comprises 12% to 45% by wt. of total bar. c) structurants comprises at least from 0.05 to 35% by wt., wherein the specific level of structurants is defined by the level of C16 to C24 saturated soap of (b) such that the total level of said C.sub.16 to C.sub.24 saturated soap and structurants are greater than 25%, and wherein said structurants are selected from the group consisting of starch, carboxymethylcellulose, inorganic particulates, acrylate polymers and mixtures thereof; d) electrolyte which is a combination of alkali metal chloride; and a secondary electrolytes selected from the group consisting of alkali metal citrate and alkali metal sulfate; and wherein the concentration of alkali metal chloride ([alkali metal chloride]); and of alkali metal citrate ([alkali metal citrate]), alkali metal sulfate ([alkali metal sulfate]) defined by level of water we use as follows: i. [alkali metal chloride]%=0.075×[water]−0.626; and ii. [alkali metal citrate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; iii. [alkali metal sulfate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; or iv. [alkali metal citrate and alkali metal sulfate]=−0.0023×[water].sup.2+0.312×[water]−4.34, wherein the calculated amount of the concentration of the electrolyte is plus or minus 15%.

The present invention relates to a composition comprising a combination of at least one catalyzing phase A comprising a biopolymer matrix impregnated with an aqueous solution of a transition metal salt, one phase B comprising a peroxide, and one phase C comprising soap; wherein phase A is physically separated from phase B. The present invention also relates to a capsule comprising two or three compartments made of a water-soluble film, and wherein said compartments together form said capsule, characterized in that it contains the composition of the invention, wherein the catalyzing phase A is physically separated from phase B. Other aspects of the invention relate to a method for preparing the composition of the invention, to a method for preparing the capsule of the invention, and to a method for cleaning clothing which comprises treating the clothing to be cleaned with the composition or the capsule of the invention. Finally, the present invention relates to the use of the composition or the capsule of the invention as a detergent for clothing.

The present invention relates to a composition comprising a combination of at least one catalyzing phase A comprising a biopolymer matrix impregnated with an aqueous solution of a transition metal salt, one phase B comprising a peroxide, and one phase C comprising soap; wherein phase A is physically separated from phase B. The present invention also relates to a capsule comprising two or three compartments made of a water-soluble film, and wherein said compartments together form said capsule, characterized in that it contains the composition of the invention, wherein the catalyzing phase A is physically separated from phase B. Other aspects of the invention relate to a method for preparing the composition of the invention, to a method for preparing the capsule of the invention, and to a method for cleaning clothing which comprises treating the clothing to be cleaned with the composition or the capsule of the invention. Finally, the present invention relates to the use of the composition or the capsule of the invention as a detergent for clothing.

Natural liquid potassium soap compositions and methods of manufacturing and using the same are provided with thickening by the addition of chloride salts, such as sodium chloride and potassium chloride. The natural liquid potassium soap compositions may contain one or more fatty acids with carbon length ranging from four (C4) to twenty-two (C22) or natural fatty acid mixtures with coconut oil, olive oil, tallow, sunflower oil, safflower oil, and/or tall oil fatty acids which are saponified with lye. The saponification lye is preferably potassium hydroxide. Preferred embodiments contain potassium salts of fatty acids comprising at least oleic acid (C18:1 cis-9), olive oils, coconut oils or mixtures thereof. The chloride salt is added in either solid or liquid form following saponification and neutralization.