Disclosed is a composition comprising a dispersion of an ingredient in a fat matrix, optionally wherein the ingredient is selected from the group comprising a macronutrient, a micronutrient, a dietary bioactive, a pharmaceutical ingredient, and combinations thereof, further optionally, wherein the dispersion is a uniform dispersion. In some embodiments, the macronutrient is a protein, a carbohydrate, a second type of fat in addition to the one forming the primary fat matrix, water, or a combination thereof. Also disclosed is a process for preparing a dispersion of an ingredient in a fat matrix, optionally wherein the ingredient is selected from the group comprising a macronutrient, a micronutrient, a dietary bioactive, a pharmaceutical ingredient, and combinations thereof, further optionally, wherein the dispersion is a uniform dispersion. In some embodiments, the process comprises: (a) heating the fat matrix to provide a melted or heat-plasticized fat matrix; (b) mixing the ingredient into the melted or heat-plasticized fat matrix, optionally wherein the ingredient comprises particles; and (c) cooling the mixture formed in step (b) to form the composition comprising a dispersion of an ingredient in a fat matrix, optionally wherein the ingredient is selected from the group comprising a macronutrient, a micronutrient, a dietary bioactive, a pharmaceutical ingredient, and combinations thereof, further optionally, wherein the dispersion is a uniform dispersion.

Disclosed is a composition comprising a dispersion of an ingredient in a fat matrix, optionally wherein the ingredient is selected from the group comprising a macronutrient, a micronutrient, a dietary bioactive, a pharmaceutical ingredient, and combinations thereof, further optionally, wherein the dispersion is a uniform dispersion. In some embodiments, the macronutrient is a protein, a carbohydrate, a second type of fat in addition to the one forming the primary fat matrix, water, or a combination thereof. Also disclosed is a process for preparing a dispersion of an ingredient in a fat matrix, optionally wherein the ingredient is selected from the group comprising a macronutrient, a micronutrient, a dietary bioactive, a pharmaceutical ingredient, and combinations thereof, further optionally, wherein the dispersion is a uniform dispersion. In some embodiments, the process comprises: (a) heating the fat matrix to provide a melted or heat-plasticized fat matrix; (b) mixing the ingredient into the melted or heat-plasticized fat matrix, optionally wherein the ingredient comprises particles; and (c) cooling the mixture formed in step (b) to form the composition comprising a dispersion of an ingredient in a fat matrix, optionally wherein the ingredient is selected from the group comprising a macronutrient, a micronutrient, a dietary bioactive, a pharmaceutical ingredient, and combinations thereof, further optionally, wherein the dispersion is a uniform dispersion.

Methods and systems for producing improved hemp seed products, such as proteins and oils are provided.

Methods and systems for producing improved hemp seed products, such as proteins and oils are provided.

The present invention relates to a process for reducing the content of MOSH and/or MOAH from a vegetable oil selected from the group consisting of palm-based oil, cocoa butter-based oil and any mixtures thereof, and wherein the process is comprising the step of subjecting a vegetable oil to a short-path evaporation, wherein the short-path evaporation is performed at a pressure of below 1 mbar, at an evaporator temperature in a range of from 235 and 290° C., and with a feed rate per unit area of evaporator surface of the short-path evaporation equipment in a range from 35 to 102 kg/h.Math.m.sup.2, and thus obtaining a retentate vegetable oil. Present invention further relates to use of short-path evaporation for reducing content of MOSH and/or MOAH from vegetable oil.

The present invention relates to a process for reducing the content of MOSH and/or MOAH from a vegetable oil selected from the group consisting of palm-based oil, cocoa butter-based oil and any mixtures thereof, and wherein the process is comprising the step of subjecting a vegetable oil to a short-path evaporation, wherein the short-path evaporation is performed at a pressure of below 1 mbar, at an evaporator temperature in a range of from 235 and 290° C., and with a feed rate per unit area of evaporator surface of the short-path evaporation equipment in a range from 35 to 102 kg/h.Math.m.sup.2, and thus obtaining a retentate vegetable oil. Present invention further relates to use of short-path evaporation for reducing content of MOSH and/or MOAH from vegetable oil.

This disclosure relates to microbial technology, and more particularly to a Mortierella alpina strain and a use thereof, a microbial oil containing ARA at an Sn-2 position, a preparation and uses thereof. Sn-2 fatty acids of the triglyceride in the microbial oil include 23% or more by weight of ARA. The microbial oil is prepared by fermentation using Mortierella alpina strain GDMCC No. 607344.

This disclosure relates to microbial technology, and more particularly to a Mortierella alpina strain and a use thereof, a microbial oil containing ARA at an Sn-2 position, a preparation and uses thereof. Sn-2 fatty acids of the triglyceride in the microbial oil include 23% or more by weight of ARA. The microbial oil is prepared by fermentation using Mortierella alpina strain GDMCC No. 607344.

The invention relates to the production of a triglyceride with Palmitic acid (P) in the middle position (XPX). A first transesterification process is used to produce a vegetable fat composition rich in palmitic acid and said intermediate composition is then further processed to produce triglycerides having a high proportion of its palmitic acid in the middle position.

The invention relates to the production of a triglyceride with Palmitic acid (P) in the middle position (XPX). A first transesterification process is used to produce a vegetable fat composition rich in palmitic acid and said intermediate composition is then further processed to produce triglycerides having a high proportion of its palmitic acid in the middle position.