Provided is a method for producing a polyunsaturated fatty acid while suppressing deterioration of a silver salt solution. A method for producing a polyunsaturated fatty acid-containing composition, the method comprising: supplying a raw material solution comprising an alkyl ester of polyunsaturated fatty acid and an aqueous solution comprising a silver salt to a flow channel mixer to contact the raw material solution with the aqueous solution; and collecting the aqueous solution comprising the silver salt which has been contacted with the raw material solution, in which the supplying the aqueous solution comprising the silver salt to the flow channel mixer and the collecting the same are performed concurrently.

There are provided ester polyols prepared from the esterification of ozone acids and branched primary polyols. There are also provided ester polyol esters prepared from an ester polyol of the invention and further esterifying the ester polyol with at least one carboxylic acid to produce at least one ester polyol ester. There are also provided rigid or flexible foams prepared using the ester polyols and/or ester polyol esters of the invention. There is also provided a coating prepared from the ester polyols and/or ester polyols esters of the invention.

A method for producing monovalent unsaturated free fatty acids having 20 and/or 22 carbons or low-grade alcohol esters thereof, said method involving the following: obtaining free fatty acids or low-grade alcohol esters through the hydrolysis or alcoholysis of oils and fats derived from marine products; carrying out distillation on the free fatty acids or low-grade alcohol esters, and reducing the concentration of fatty acids with 18 or less carbons in the low-grade alcohol esters or free fatty acids; and collecting fractions of monovalent unsaturated free fatty acids having 20 and/or 22 carbons or low-grade alcohol esters thereof by column chromatography based on reversed-phase distribution.

A feed stream comprising fatty acids with chain lengths C6 to C20 is distilled in a first column to provide a C6-C8 top cut, a C8-C10 middle cut and a C12+ bottom cut, said C12+ bottom cut being distilled in a second column to provide a C12-C14 top cut and a C16+ bottom cut, said C16+ bottom cut being distilled in a third column to provide a C16-C18 top cut and a C18+ bottom cut.

The present invention generally relates to oil compositions and methods of producing such oil compositions. More particularly, the present invention relates to an oil composition recovered from a fermentation product as well as methods of recovering such oil compositions for use in various processes such as bio-diesel production as well as in various edible applications.

The present invention generally relates to oil compositions and methods of producing such oil compositions. More particularly, the present invention relates to an oil composition recovered from a fermentation product as well as methods of recovering such oil compositions for use in various processes such as bio-diesel production as well as in various edible applications.

One or more techniques are disclosed for a process of preparing a concentrated form of a vegetable-based stearic acid from a plant source. The process may comprise drying and deodorizing a vegetable based emulsion; and further concentrating the resulting fatty acid and triglyceride mix. The process may further comprise distillation of the resulting concentrated fatty acid and triglyceride mix, to separate the free fatty acids from the triglycerides. Additionally, the process may comprise fractional distillation of the free fatty acid distillate, to produce a concentrated from of the stearic acid, separating it from other fatty acids.

A feed stream comprising fatty acids with chain lengths C6 to C20 is distilled in a first column to provide a C6-C8 top cut, a C8-C10 middle cut and a C12+ bottom cut, said C12+ bottom cut being distilled in a second column to provide a C12-C14 top cut and a C16+ bottom cut, said C16+ bottom cut being distilled in a third column to provide a C16-C18 top cut and a C18+ bottom cut.

One or more techniques are disclosed for a process of preparing a concentrated form of a vegetable-based stearic acid from a plant source. The process may comprise drying and deodorizing a vegetable based emulsion; and further concentrating the resulting fatty acid and triglyceride mix. The process may further comprise distillation of the resulting concentrated fatty acid and triglyceride mix, to separate the free fatty acids from the triglycerides. Additionally, the process may comprise fractional distillation of the free fatty acid distillate, to produce a concentrated from of the stearic acid, separating it from other fatty acids.

The present invention pertains to an efficient and large-scale process to produce a medium-chain triglyceride composition with >95% content for C8 (caprylic acid), C10 (capric acid) and C12 (lauric acid), with the content of lauric acid at about 5% or more. The process involves fractionation of fatty acid methyl esters, which are mainly derived from coconut or palm kernel, their esterification to glycerol to synthesize medium-chain triglycerides, and refining them to significantly increase purity and make them fit for human consumption. Such composition can have important uses in food and its preparation, health supplements, cosmetics, and medicine, among others.