A water soluble pellet for releasing one or more actives including a vegetable soap carrier in an amount of 10-95 wt %; a perfume oil in an amount of 2-12 wt %; and a dye in an amount of 0.001 to 0.5 wt %. The method for manufacturing the water soluble pellet includes the following steps: mixing the composition; extruding the composition; and cutting the extruded composition to form water soluble pellets.

A water soluble pellet for releasing one or more actives including a vegetable soap carrier in an amount of 10-95 wt %; a perfume oil in an amount of 2-12 wt %; and a dye in an amount of 0.001 to 0.5 wt %. The method for manufacturing the water soluble pellet includes the following steps: mixing the composition; extruding the composition; and cutting the extruded composition to form water soluble pellets.

A water soluble pellet for releasing one or more actives including a vegetable soap carrier in an amount of 10-95 wt %; a perfume oil in an amount of 2-12 wt %; and a dye in an amount of 0.001 to 0.5 wt %. The method for manufacturing the water soluble pellet includes the following steps: mixing the composition; extruding the composition; and cutting the extruded composition to form water soluble pellets.

A water soluble pellet for releasing one or more actives including a vegetable soap carrier in an amount of 10-95 wt %; a perfume oil in an amount of 2-12 wt %; and a dye in an amount of 0.001 to 0.5 wt %. The method for manufacturing the water soluble pellet includes the following steps: mixing the composition; extruding the composition; and cutting the extruded composition to form water soluble pellets.

A two-stage method produces a liquid soap, having an alkaline pH and stable viscosity, so as to be efficacious in controlling pathogens and generating a thick lather which optimizes its cleansing and disinfecting effects. The method involves saponification of natural and/or synthetic oils/fats using of two lyes—potassium hydroxide and sodium hydroxide—which, when combined in roughly equal proportions, yield a lathery liquid soap without the need for synthetic surfactants or chemical thickeners. The method is also distinctive insofar as it first produces a solid soap concentrate, from which the liquid soap can be made simply by dissolving the solid soap concentrate in water.

A two-stage method produces a liquid soap, having an alkaline pH and stable viscosity, so as to be efficacious in controlling pathogens and generating a thick lather which optimizes its cleansing and disinfecting effects. The method involves saponification of natural and/or synthetic oils/fats using of two lyes—potassium hydroxide and sodium hydroxide—which, when combined in roughly equal proportions, yield a lathery liquid soap without the need for synthetic surfactants or chemical thickeners. The method is also distinctive insofar as it first produces a solid soap concentrate, from which the liquid soap can be made simply by dissolving the solid soap concentrate in water.

Methods and systems for making artificial flowers are disclosed. The method can include wrapping a first flower wrapper having between 1 and 5 petals around a foam core to form a first flower construct, or bud. The method can include wrapping a second flower wrapper having between 1 and 5 petals around the first flower construct, or bud. The method can include wrapping a third flower wrapper having between 1 and 5 petals around the second flower construct. The method can include wrapping additional layers of flower wrappers around flower constructs, including, but not limited to, 3 more layers of flower wrappers. Wrapping a flower wrapper around a core or a flower construct may be done manually or in an automated fashion. Wrapping a flower wrapper around a core or a flower construct may be done petal by petal or all petals simultaneously.

Methods and systems for making artificial flowers are disclosed. The method can include wrapping a first flower wrapper having between 1 and 5 petals around a foam core to form a first flower construct, or bud. The method can include wrapping a second flower wrapper having between 1 and 5 petals around the first flower construct, or bud. The method can include wrapping a third flower wrapper having between 1 and 5 petals around the second flower construct. The method can include wrapping additional layers of flower wrappers around flower constructs, including, but not limited to, 3 more layers of flower wrappers. Wrapping a flower wrapper around a core or a flower construct may be done manually or in an automated fashion. Wrapping a flower wrapper around a core or a flower construct may be done petal by petal or all petals simultaneously.

A two-stage method produces a liquid soap, having an alkaline pH and stable viscosity, so as to be efficacious in controlling pathogens and generating a thick lather which optimizes its cleansing and disinfecting effects. The method involves saponification of natural and/or synthetic oils/fats using of two lyes—potassium hydroxide and sodium hydroxide—which, when combined in roughly equal proportions, yield a lathery liquid soap without the need for synthetic surfactants or chemical thickeners. The method is also distinctive insofar as it first produces a solid soap concentrate, from which the liquid soap can be made simply by dissolving the solid soap concentrate in water.

A two-stage method produces a liquid soap, having an alkaline pH and stable viscosity, so as to be efficacious in controlling pathogens and generating a thick lather which optimizes its cleansing and disinfecting effects. The method involves saponification of natural and/or synthetic oils/fats using of two lyes—potassium hydroxide and sodium hydroxide—which, when combined in roughly equal proportions, yield a lathery liquid soap without the need for synthetic surfactants or chemical thickeners. The method is also distinctive insofar as it first produces a solid soap concentrate, from which the liquid soap can be made simply by dissolving the solid soap concentrate in water.