The disclosure discloses a Pickering emulsion stabilized by cellulose from ginkgo seed shells and a preparation method thereof, and belongs to the fields of preparation methods of biomass materials and food chemical industry. The disclosure uses ginkgo seed shells as a raw material to obtain high-purity cellulose through hot alkali treatment and sodium chlorite bleaching. After the cellulose is dried, the cellulose is hydrolyzed with sulfuric acid to obtain a cellulose nanocrystal suspension. The suspension is mixed with an oil phase, and the Pickering emulsion is obtained through high-speed shearing and homogeneous emulsification. The disclosure can prepare cellulose nanocrystals with different aspect ratios by adjusting the parameters of high-speed shearing and homogeneous emulsification according to actual production needs. Cellulose nanocrystals with high aspect ratio can be used to prepare stable Pickering emulsions with high oil phase and high viscosity, which can be applied to the fields of food, cosmetics and the like; and cellulose nanocrystals with low aspect ratio can be used to prepare Pickering emulsions with low viscosity and high fluidity, which can to be applied to the fields of food and medicine.

The disclosure discloses a Pickering emulsion stabilized by cellulose from ginkgo seed shells and a preparation method thereof, and belongs to the fields of preparation methods of biomass materials and food chemical industry. The disclosure uses ginkgo seed shells as a raw material to obtain high-purity cellulose through hot alkali treatment and sodium chlorite bleaching. After the cellulose is dried, the cellulose is hydrolyzed with sulfuric acid to obtain a cellulose nanocrystal suspension. The suspension is mixed with an oil phase, and the Pickering emulsion is obtained through high-speed shearing and homogeneous emulsification. The disclosure can prepare cellulose nanocrystals with different aspect ratios by adjusting the parameters of high-speed shearing and homogeneous emulsification according to actual production needs. Cellulose nanocrystals with high aspect ratio can be used to prepare stable Pickering emulsions with high oil phase and high viscosity, which can be applied to the fields of food, cosmetics and the like; and cellulose nanocrystals with low aspect ratio can be used to prepare Pickering emulsions with low viscosity and high fluidity, which can to be applied to the fields of food and medicine.

The purpose of the present invention is to provide an ascorbic acid-containing fat in which the ascorbic acid content of the ascorbic acid-containing fat is increased, and which can be used in any food products and can be applied in a wide range of concentrations. This fat composition contains 50-50,000 ppm of ascorbic acid, and contains a specific amount of water relative to the ascorbic acid content.

The purpose of the present invention is to provide an ascorbic acid-containing fat in which the ascorbic acid content of the ascorbic acid-containing fat is increased, and which can be used in any food products and can be applied in a wide range of concentrations. This fat composition contains 50-50,000 ppm of ascorbic acid, and contains a specific amount of water relative to the ascorbic acid content.

The present disclosure provides a flavored oil and a food containing the flavored oil. The flavored oil according to the present disclosure contains: (A) one or more ingredients selected from yeast-derived substances and protein hydrolysates; and (B) a spice. The present disclosure also provides a method for manufacturing the flavored oil, said method comprising the steps of: A) adding the one or more ingredients selected from yeast-derived substances and protein hydrolysate, and the spice to the oil or fat to prepare a mixture; B) heating the mixture prepared in step A) whilst stirring the same; and C) cooling the product obtained in step B) to room temperature.

The present disclosure provides a flavored oil and a food containing the flavored oil. The flavored oil according to the present disclosure contains: (A) one or more ingredients selected from yeast-derived substances and protein hydrolysates; and (B) a spice. The present disclosure also provides a method for manufacturing the flavored oil, said method comprising the steps of: A) adding the one or more ingredients selected from yeast-derived substances and protein hydrolysate, and the spice to the oil or fat to prepare a mixture; B) heating the mixture prepared in step A) whilst stirring the same; and C) cooling the product obtained in step B) to room temperature.

An edible and thermoreversible oleogel comprising an oil or mixture of oils, grease or mixtures of fats and a structuring agent or mixture of structuring agents on the basis of a distilled monoglyceride of saturated fatty acid having from 12 to 24 carbon atoms that contains more than 90% by weight of monoglycerides, the monoglycerides of the saturated fatty acid are at least 40% by weight of monoglycerides of stearic acid and at least 30% by weight of monoglycerides of palmitic acid. The oleogel is prepared by the combination of oil, grease, and the structuring agent followed by a heating of the mixture, which is then cooled to obtain the oleogel. The resulting oleogel can be used as a substitute for fat in food products.

An edible and thermoreversible oleogel comprising an oil or mixture of oils, grease or mixtures of fats and a structuring agent or mixture of structuring agents on the basis of a distilled monoglyceride of saturated fatty acid having from 12 to 24 carbon atoms that contains more than 90% by weight of monoglycerides, the monoglycerides of the saturated fatty acid are at least 40% by weight of monoglycerides of stearic acid and at least 30% by weight of monoglycerides of palmitic acid. The oleogel is prepared by the combination of oil, grease, and the structuring agent followed by a heating of the mixture, which is then cooled to obtain the oleogel. The resulting oleogel can be used as a substitute for fat in food products.

Described herein are compositions from refined oil from plant matter, and in particular from seed, bean, nut, kernel, or pulp (e.g., wood pulp) material of virgin and/or non-virgin plant matter, and methods of forming those compositions. The methods typically include the steps of (i) at least partially separating the seed, bean, nut, kernel, or pulp material from other portions of the plant matter; (ii) extracting an oil comprising one or more triglycerides from the seed, bean, nut, kernel, or pulp material; (iii) refining the oil to remove one or more impurity components; and (iv) chemically or physically modifying the refined oil.

Described herein are compositions from refined oil from plant matter, and in particular from seed, bean, nut, kernel, or pulp (e.g., wood pulp) material of virgin and/or non-virgin plant matter, and methods of forming those compositions. The methods typically include the steps of (i) at least partially separating the seed, bean, nut, kernel, or pulp material from other portions of the plant matter; (ii) extracting an oil comprising one or more triglycerides from the seed, bean, nut, kernel, or pulp material; (iii) refining the oil to remove one or more impurity components; and (iv) chemically or physically modifying the refined oil.