The present invention is related to extracts rich in polar lipids obtained or obtainable from macroalgae, microalgae, photosynthetic bacteria and/or photosynthetic organ(s) and/or tissue(s) of a plant and combinations thereof as well as their uses as emulsifiers.

The present invention is related to extracts rich in polar lipids obtained or obtainable from macroalgae, microalgae, photosynthetic bacteria and/or photosynthetic organ(s) and/or tissue(s) of a plant and combinations thereof as well as their uses as emulsifiers.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A progressive shear emulsifier can include an outer body and an inner body. The outer body can have a central opening therethrough, an inlet, an outlet, and an inner surface along the central opening defining a first three-dimensional contour. The inner body can be positioned within the central opening and configured to rotate with respect to the outer body about an axis of rotation along the central opening. The inner body can have an outer surface defining a second three-dimensional contour that correlates to the first three-dimensional contour to form a material passage between the outer body and inner body. Rotation of the inner body within the outer body can create progressive amounts of shear across materials passing through the material passage, which can result in emulsified material. Conic transitions can create turbulent regions that mix the materials passing therethrough. Collective geometry can create conveyance and/or pumping of materials, which can be methylcellulose and free water.

A progressive shear emulsifier can include an outer body and an inner body. The outer body can have a central opening therethrough, an inlet, an outlet, and an inner surface along the central opening defining a first three-dimensional contour. The inner body can be positioned within the central opening and configured to rotate with respect to the outer body about an axis of rotation along the central opening. The inner body can have an outer surface defining a second three-dimensional contour that correlates to the first three-dimensional contour to form a material passage between the outer body and inner body. Rotation of the inner body within the outer body can create progressive amounts of shear across materials passing through the material passage, which can result in emulsified material. Conic transitions can create turbulent regions that mix the materials passing therethrough. Collective geometry can create conveyance and/or pumping of materials, which can be methylcellulose and free water.

The invention comprises a method and apparatus for amending a food product, comprising the steps of: (1) receiving into a second geographic zone the food product from a first geographic zone, where packaging greater than five milligrams per serving of tetrahydrocannabinol (THC) in the food product is illegal in the first geographic zone and legal in the second geographic zone; (2) forming a composition of the tetrahydrocannabinol comprising a viscosity of less than 2,000 mPa sec; and (3) injecting the food product with the composition of the tetrahydrocannabinol to form an amended food product, where the composition preferably comprises an emulsion of tetrahydrocannabinol, an emulsifier, and water with a mean particle size of less than 1000 nm and a viscosity of less than 100 mPa sec.

The invention comprises a method and apparatus for amending a food product, comprising the steps of: (1) receiving into a second geographic zone the food product from a first geographic zone, where packaging greater than five milligrams per serving of tetrahydrocannabinol (THC) in the food product is illegal in the first geographic zone and legal in the second geographic zone; (2) forming a composition of the tetrahydrocannabinol comprising a viscosity of less than 2,000 mPa sec; and (3) injecting the food product with the composition of the tetrahydrocannabinol to form an amended food product, where the composition preferably comprises an emulsion of tetrahydrocannabinol, an emulsifier, and water with a mean particle size of less than 1000 nm and a viscosity of less than 100 mPa sec.

The invention comprises a method and apparatus for amending a food product, comprising the steps of: receiving into a tetrahydrocannabinol (THC) licensed facility the food product from a geographic area outside of the THC licensed facility; subjecting a THC emulsion to shear forces exceeding 250,000 sec.sup.−1 in a high pressure emulsifier positioned inside the THC licensed facility; and spraying, with a sprayer, the THC emulsion onto the food product to form a THC amended food product.

The invention comprises a method and apparatus for amending a food product, comprising the steps of: receiving into a tetrahydrocannabinol (THC) licensed facility the food product from a geographic area outside of the THC licensed facility; subjecting a THC emulsion to shear forces exceeding 250,000 sec.sup.−1 in a high pressure emulsifier positioned inside the THC licensed facility; and spraying, with a sprayer, the THC emulsion onto the food product to form a THC amended food product.