The present invention relates to biodegradable and compostable granules consisting of natural ingredients comprising starch and thickening and gelling agents and does not comprise bioplastics. According to the invention, the granules are used for producing biodegradable and preferably compostable products and articles of daily use. The present invention also relates to methods for producing the granules according to the invention, as well as methods for producing different products by using the granules according to the invention.

A heat-coagulated protein processed food product obtained by continuously heat-coagulating and molding a mixture that includes a protein, a lipid, and moisture and has fluidity, by an internal heating method while the mixture is moved within a cylinder having a heating part, and a non-heating part following on from the heating part, is dynamically cut with a cutting blade to form plural noodle-shaped bodies, and the plural noodle-shaped bodies after the cutting cohere with each other at surfaces along a longitudinal direction of the noodle-shaped bodies.

A heat-coagulated protein processed food product obtained by continuously heat-coagulating and molding a mixture that includes a protein, a lipid, and moisture and has fluidity, by an internal heating method while the mixture is moved within a cylinder having a heating part, and a non-heating part following on from the heating part, is dynamically cut with a cutting blade to form plural noodle-shaped bodies, and the plural noodle-shaped bodies after the cutting cohere with each other at surfaces along a longitudinal direction of the noodle-shaped bodies.

The subject matter of the present invention is a creatine agglomerate with improved solubility characteristics in aqueous systems and improved handling, thus simplifying the intake of creatine. The agglomerate is characterized in that it contains 30 to 99.9 wt. % of ground creatine and/or ground creatine derivatives and/or ground creatine salts and 0.1 to 30 wt. % of a binder containing at least one oligosaccharide, in particular maltodextrin, based on the total weight of the agglomerate.

The subject matter of the present invention is a creatine agglomerate with improved solubility characteristics in aqueous systems and improved handling, thus simplifying the intake of creatine. The agglomerate is characterized in that it contains 30 to 99.9 wt. % of ground creatine and/or ground creatine derivatives and/or ground creatine salts and 0.1 to 30 wt. % of a binder containing at least one oligosaccharide, in particular maltodextrin, based on the total weight of the agglomerate.

The present disclosure relates to a method for preparing a personalized nutritional supplement composition having precisely controlled nutrient content through embedded 3D printing, which can derive nutritional requirement information based on biometric information and dietary activity information of a user and provide a personalized nutritional supplement composition including droplets containing nutrients required by the user.

The present disclosure relates to a method for preparing a personalized nutritional supplement composition having precisely controlled nutrient content through embedded 3D printing, which can derive nutritional requirement information based on biometric information and dietary activity information of a user and provide a personalized nutritional supplement composition including droplets containing nutrients required by the user.

A method of preparing a flavor composition containing D-allulose includes: (1) weighing D-allulose, mogroside, steviol glycoside and trichlorosucrose in parts by weight, and mixing them evenly to obtain a mixed powder; (2) degassing, compressing, and rolling the mixed powder, and extruding the raw materials into flakes; and (3) crushing and granulating the shaped flakes to obtain the flavor composition. D-allulose is used as the main raw material, and added high-intensity sweeteners as auxiliary raw materials. After the raw materials are mixed evenly, dry granulation is adopted, and the powder is degassed and pre-compressed by using the crystal water in the raw materials, and squeezed by a hydraulic roller to form a bonding force between the various sweetener molecules to form flakes, and the flakes are processed by processes such as crushing and granulating to obtain the flavor composition granules containing D-allulose with the various sweeteners integrated uniformly as a whole.

A method of preparing a flavor composition containing D-allulose includes: (1) weighing D-allulose, mogroside, steviol glycoside and trichlorosucrose in parts by weight, and mixing them evenly to obtain a mixed powder; (2) degassing, compressing, and rolling the mixed powder, and extruding the raw materials into flakes; and (3) crushing and granulating the shaped flakes to obtain the flavor composition. D-allulose is used as the main raw material, and added high-intensity sweeteners as auxiliary raw materials. After the raw materials are mixed evenly, dry granulation is adopted, and the powder is degassed and pre-compressed by using the crystal water in the raw materials, and squeezed by a hydraulic roller to form a bonding force between the various sweetener molecules to form flakes, and the flakes are processed by processes such as crushing and granulating to obtain the flavor composition granules containing D-allulose with the various sweeteners integrated uniformly as a whole.

A method for making a granulated Stevia sweetener is described. The resulting sweetener has a desirably high solubility level.