The present invention relates to a method of admixing a volume of water in which acid- or base-forming compounds are contained and whose volume fraction is >5% by volume in the ratio to be purified lipid phase and/or in a volume ratio that allows the formation of a water phase in order to separate hydratable mucilage from a lipid phase, to purify a lipid phase and/or to obtain the hydratable mucilages.

The present invention relates to a method of admixing a volume of water in which acid- or base-forming compounds are contained and whose volume fraction is >5% by volume in the ratio to be purified lipid phase and/or in a volume ratio that allows the formation of a water phase in order to separate hydratable mucilage from a lipid phase, to purify a lipid phase and/or to obtain the hydratable mucilages.

The present invention relates to methods of producing industrial products from plant lipids, particularly from vegetative parts of plants. In particular, the present invention provides oil products such as biodiesel and synthetic diesel and processes for producing these, as well as plants having an increased level of one or more non-polar lipids such as triacylglycerols and an increased total non-polar lipid content. In one particular embodiment, the present invention relates to combinations of modifications in two or more of lipid handling enzymes, oil body proteins, decreased lipid catabolic enzymes and/or transcription factors regulating lipid biosynthesis to increase the level of one or more non-polar lipids and/or the total non-polar lipid content and/or mono-unsaturated fatty acid content in plants or any part thereof. In an embodiment, the present invention relates to a process for extracting lipids. In another embodiment, the lipid is converted to one or more hydrocarbon products in harvested plant vegetative parts to produce alkyl esters of the fatty acids which are suitable for use as a renewable biodiesel fuel.

The present invention relates to methods of producing industrial products from plant lipids, particularly from vegetative parts of plants. In particular, the present invention provides oil products such as biodiesel and synthetic diesel and processes for producing these, as well as plants having an increased level of one or more non-polar lipids such as triacylglycerols and an increased total non-polar lipid content. In one particular embodiment, the present invention relates to combinations of modifications in two or more of lipid handling enzymes, oil body proteins, decreased lipid catabolic enzymes and/or transcription factors regulating lipid biosynthesis to increase the level of one or more non-polar lipids and/or the total non-polar lipid content and/or mono-unsaturated fatty acid content in plants or any part thereof. In an embodiment, the present invention relates to a process for extracting lipids. In another embodiment, the lipid is converted to one or more hydrocarbon products in harvested plant vegetative parts to produce alkyl esters of the fatty acids which are suitable for use as a renewable biodiesel fuel.

A microorganism oil composition enriched with eicosapentaenoic acid or with docosahexaenoic acid mainly in the form of diglycerides, and method for obtaining same. A microorganism oil composition includes an eicosapentaenoic acid and/or docosahexaenoic acid content greater than or equal to 500 mg/g of composition, and, with respect to the total quantity of glycerides, a quantity of diglycerides greater than 45% and a quantity of monoglycerides and diglycerides greater than 60%.

The present invention relates to methods of producing industrial products from plant lipids, particularly from vegetative parts of plants. In particular, the present invention provides oil products such as biodiesel and synthetic diesel and processes for producing these, as well as plants having an increased level of one or more non-polar lipids such as triacylglycerols and an increased total non-polar lipid content. In one particular embodiment, the present invention relates to combinations of modifications in two or more of lipid handling enzymes, oil body proteins, decreased lipid catabolic enzymes and/or transcription factors regulating lipid biosynthesis to increase the level of one or more non-polar lipids and/or the total non-polar lipid content and/or mono-unsaturated fatty acid content in plants or any part thereof. In an embodiment, the present invention relates to a process for extracting lipids. In another embodiment, the lipid is converted to one or more hydrocarbon products in harvested plant vegetative parts to produce alkyl esters of the fatty acids which are suitable for use as a renewable biodiesel fuel.

A method for removing FFAs and toxins from edible oils, without requiring short path distillation and its attendant high temperatures and high loss of product, includes preheating a crude or refined edible oil input stream, having a toxic material content of at least about 1 PPB, to a temperature of about 400-450 F. and introducing the preheated edible oil stream to the top of a vertical stripper column operating at a pressure of about 0.1-3 Torr, typically about 2 Torr. The downward flowing edible oil stream in the stripper is stripped by superheated steam flowing in a countercurrent direction up through the stripper column. Refined and deodorized edible oil having a toxic material content of less than about 500 PPT, and typically as low as about 1 PPT, and at most about 0.2% by weight FFAs, is removed from the stripper.

The present invention relates to processes for obtaining a lipid from a cell by lysing the cell, contacting the cell with a base and/or salt, and separating the lipid. The present invention is also directed to a lipid prepared by the processes of the present invention. The present invention is also directed to microbial lipids having a particular anisidine value, peroxide value, and/or phosphorus content.

The present invention relates to processes for obtaining a lipid from a cell by lysing the cell, contacting the cell with a base and/or salt, and separating the lipid. The present invention is also directed to a lipid prepared by the processes of the present invention. The present invention is also directed to microbial lipids having a particular anisidine value, peroxide value, and/or phosphorus content.

A method for removing FFAs and toxins from edible oils, without requiring short path distillation and its attendant high temperatures and high loss of product, includes preheating a crude or refined edible oil input stream, having a toxic material content of at least about 1 PPB, to a temperature of about 400-450 F. and introducing the preheated edible oil stream to the top of a vertical stripper column operating at a pressure of about 0.1-3 Torr, typically about 2 Torr. The downward flowing edible oil stream in the stripper is stripped by superheated steam flowing in a countercurrent direction up through the stripper column. Refined and deodorized edible oil having a toxic material content of less than about 500 PPT, and typically as low as about 1 PPT, and at most about 0.2% by weight FFAs, is removed from the stripper.