A method for producing a blown and stripped biorenewable oil is provided. The method may include the steps of (a) heating a biorenewable oil to at least 90 C.; (b) exposing an oxygen containing stream to the heated oil to produce a blown oil having a viscosity of at least 40 cSt at 40 C.; (c) adding a base metal catalyst to the blown oil; and (d) stripping the blown oil from step (c) until the stripped oil has an acid value of from about 1 mg KOH/g to about 20 mg KOH/g; wherein the stripped oil from step (d) has a flash point of at least 220 C.

A method for producing a blown and stripped biorenewable oil is provided. The method may include the steps of (a) heating a biorenewable oil to at least 90 C.; (b) exposing an oxygen containing stream to the heated oil to produce a blown oil having a viscosity of at least 40 cSt at 40 C.; (c) adding a base metal catalyst to the blown oil; and (d) stripping the blown oil from step (c) until the stripped oil has an acid value of from about 1 mg KOH/g to about 20 mg KOH/g; wherein the stripped oil from step (d) has a flash point of at least 220 C.

The present invention broadly relates to a process for preparing fatty acid alkyl esters from fat-containing feedstocks using sulfonated fatty acid catalysts.

The present invention relates to a method for reducing an amount of dissolved impurities in an oxygen containing renewable feedstock, the dissolved impurities being selected from impurities comprising phosphorus and impurities comprising at least one metal. The method comprises obtaining a net elementary charge of a first feedstock; mixing the first feedstock with an elementary charge balancing component to obtain the feedstock to be treated, whereby the feedstock to be treated has a net elementary charge which is closer to zero net elementary charge than the net elementary charge of the first feedstock; and subjecting the feedstock to be treated to a heat treatment at a temperature of 180-400 C. in order to precipitate compounds containing said phosphorus and said at least one metal.

The present invention is to provide a refined edible oil and/or fat whose light exposure odor has been improved, a method for manufacturing the oil and/or fat, and a method for improving light exposure odor of an edible oil and/or fat. Specifically, the present invention relates to a method for manufacturing a refined edible oil and/or fat which includes a step of bringing an oil and/or fat into contact with ozone and a distillation step. The refined edible oil and/or fat is manufactured by the method above.

The present invention is to provide a refined edible oil and/or fat whose light exposure odor has been improved, a method for manufacturing the oil and/or fat, and a method for improving light exposure odor of an edible oil and/or fat. Specifically, the present invention relates to a method for manufacturing a refined edible oil and/or fat which includes a step of bringing an oil and/or fat into contact with ozone and a distillation step. The refined edible oil and/or fat is manufactured by the method above.