A refined oil comprising at least one polyunsaturated fatty acid (PUFA), wherein the oil has a fatty acid ester of monochloropropanediol, epoxypropanol, and mixtures thereof in an amount of 10 ppm or less, and processes for producing the oil. The oil is preferably a microbial or marine oil.

A refined oil comprising at least one polyunsaturated fatty acid (PUFA), wherein the oil has a fatty acid ester of monochloropropanediol, epoxypropanol, and mixtures thereof in an amount of 10 ppm or less, and processes for producing the oil. The oil is preferably a microbial or marine oil.

Provided is a non-splatter cooking oil even when water is mixed during heating. A magnetic field having a frequency higher than 200 kHz is applied to an edible oil.

Provided is a non-splatter cooking oil even when water is mixed during heating. A magnetic field having a frequency higher than 200 kHz is applied to an edible oil.

The invention relates to a new solvent-free process for simultaneously obtaining phospholipids-enriched krill oil and neutral lipid enriched-krill oil containing DHA and EPA poly-unsaturated fatty acids and astaxanthin and krill meal. The process includes preheating fresh minced krill followed by melting of the lipids using live steam injection to obtain a press liquid and a solid fraction; centrifuging the press liquid to obtain a phospholipids-enriched emulsion phase; evaporating the water of the emulsion using a thin film evaporator to obtain phospholipids-enriched krill oil; centrifuging the resulting decanter liquid to obtain neutral lipids enriched krill oil and stickwater.

The invention relates to a new solvent-free process for simultaneously obtaining phospholipids-enriched krill oil and neutral lipid enriched-krill oil containing DHA and EPA poly-unsaturated fatty acids and astaxanthin and krill meal. The process includes preheating fresh minced krill followed by melting of the lipids using live steam injection to obtain a press liquid and a solid fraction; centrifuging the press liquid to obtain a phospholipids-enriched emulsion phase; evaporating the water of the emulsion using a thin film evaporator to obtain phospholipids-enriched krill oil; centrifuging the resulting decanter liquid to obtain neutral lipids enriched krill oil and stickwater.

The present invention relates to a method for accelerating oxidation of lipids comprising the step of holding a lipid composition in the presence of cumin for a prolonged time at an elevated temperature. Further aspects of the invention are the resulting lipid composition as well as food products such as concentrated seasoning or flavoring products, condiments, sauces, gravies or ready-to-eat food products comprising said lipid composition.

The present invention relates to a method for accelerating oxidation of lipids comprising the step of holding a lipid composition in the presence of cumin for a prolonged time at an elevated temperature. Further aspects of the invention are the resulting lipid composition as well as food products such as concentrated seasoning or flavoring products, condiments, sauces, gravies or ready-to-eat food products comprising said lipid composition.

The present invention relates to a method for increasing the SUS content in an oil or in an olein fraction, comprising performing 1,3-selective enzymatic intraesterification on a natural starting oil or olein fraction prepared therefrom wherein the ratio between SUS and SUU is at least 1:1.5 and the SSS content is low, in particular close to 0%. Further, the present invention relates to 1,3-Selective intraesterified oil or olein, obtainable by performing the present method.

The present invention relates to a method for increasing the SUS content in an oil or in an olein fraction, comprising performing 1,3-selective enzymatic intraesterification on a natural starting oil or olein fraction prepared therefrom wherein the ratio between SUS and SUU is at least 1:1.5 and the SSS content is low, in particular close to 0%. Further, the present invention relates to 1,3-Selective intraesterified oil or olein, obtainable by performing the present method.