A method for extraction and multi-scenario utilization of flaxseed protein-polysaccharide natural mixture is disclosed, comprising:(1) raw material pretreatment; (2) extraction of mixture I; (3) multi-scenario utilization of mixture I; (4) extraction of mixture II; and (5) multi-scenario utilization of mixture II. Compared with the traditional extraction mode (such as alkali-solution and acid-isolation method) of flaxseed protein, the method of the invention can enrich the flaxseed protein more efficiently, greenly and moderately, and can co-extract polysaccharide from flaxseed meal to form the flaxseed protein-polysaccharide natural mixture. Physical field/bio-enzyme coupling ultrasonic technique solves the bottleneck problem of low extraction rate of the flaxseed protein-polysaccharide natural mixture by water extraction method. By controlling the types of physical field/enzyme, action parameters and treatment time, flaxseed protein-polysaccharide natural mixtures with different proportions can be customized and endowed with multiple functional properties, so as to satisfy the multi-scenario utilization of mixtures I and II.

A method for producing a clean-tasting, neutral-color, concentrated, liquid protein base including separating fibrous material from the protein base. The method further includes applying ultrasonication to the protein base at an ultrasonication unit according to ultrasonication settings. The ultrasonication settings are adapted to cause acoustic cavitation within the protein base. The method further includes filtering the protein base through one or more membrane filters after separating the fibrous material from the protein base. The method further includes processing the protein base to form a protein ingredient. In certain cases, the method further includes processing the separated fibrous material to produce a dietary fiber. Processing the fibrous material includes converting gelatinized starch from the separated fibrous material into resistant starch.

A tribo-electro static separation process and system for the preparation of various food and feed products. A tribo-electric separation process and system for fractionating a feed mixture comprising at least two members of the group of proteins, starches, soluble and insoluble fibers. Namely, supplying a feed mixture comprising at least two of the group of proteins, starches, soluble and insoluble fibers to a tribo-electric separator and simultaneously charging and separating the feed mixture into at least two subfractions, with one of the subfractions enriched in one of protein, starch and fiber and having a composition different than the feed mixture.

The present invention relates to fields of continuous directional catalysis of soybean slurry to extract protein and functional oil with nano-magnetic immobilized enzymes. The present invention discloses soybean slurry as raw material and continuous mobile phase, and nano-magnetic immobilized enzymes as stationary phase applied in three-phase magnetic fluidized bed. The present invention provides a method of enzymatic disrupting cell walls by nano-magnetic immobilized enzyme cocktail including cellulose, pectinase and alkaline protease. The method can he used to break down lipoprotein, lipopolysaccharide complex and break lipoprotein film on the surface of lipoprotein to release the lipid. The present invention also provides a method to catalyze phospholipid using nano-magnetic immobilized phospholipase to change the polarity of phospholipids and control liquid emulsification phenomenon. The enzymes disclosed in the present invention do not interfere with each other. The preparation method can be used to catalyze soybean slurry continuously using the nano-magnetic immobilized enzymes to extract protein and functional lipid simultaneously.

A tribo-electrostatic separation process and system for the preparation of various food and feed products. A tribo-electric separation process and system for fractionating a feed mixture comprising at least two members of the group of proteins, starches, soluble and insoluble fibers. Namely, supplying a feed mixture comprising at least two of the group of proteins, starches, soluble and insoluble fibers to a tribo-electric separator and simultaneously charging and separating the feed mixture into at least two subfractions, with one of the subfractions enriched in one of protein, starch and fiber and having a composition different than the feed mixture.

A composition of matter comprising an extract of a plurality of seeds of an edible plant of interest is disclosed. Use of the composition and methods of generating same are also disclosed.

A method of producing peptides from seed protein includes mixing a seed protein concentrate with a catalyst to prepare a mixture, dissolving the mixture in a buffer to prepare a suspension, and hydrolysing the suspension in a subcritical water medium in a high pressure system that includes a temperature controller, a batch stirred reactor, and a heating mantle. Hydrolysing the suspension includes loading the suspension into the batch stirred reactor, purging the reactor with a purge gas while stirring the suspension therein for a purge time, pressurizing the reactor with a pressurizing gas to a reaction pressure, heating the reactor to a reaction temperature, maintaining the reaction pressure and the reaction temperature within the reactor for a reaction time, cooling the reactor to a post-reaction temperature after the reaction time has elapsed and depressurizing the reactor, and centrifuging a hydrolysate resulting from the hydrolysing.