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.

Compositions and methods are provided, wherein one or more plant protein(s) are combined with one or more fruit, vegetable, nut or grain sources of phenolics to generate protein-phenol complexes within the mixture. The source of phenolics primarily derive from plant waste, residuals, by-products or side streams, such as, for example, the solids which remain after the extraction of juice from fruit or oil pressed from olives, nuts or grains (e.g., pomace), or fruit and vegetables, etc., which could not be sold for some reason or another. In one embodiment, this mixture constitutes an Admixture that can be added to meat analogue formulations. In one embodiment, this mixture constitutes a Base Substance to generate a Meat Analogue and/or Final Product, which can provide a replacement for different types of meat including beef, buffalo, deer, chicken, turkey, pork, fish, shellfish, etc.

Compositions and methods are provided, wherein one or more plant protein(s) are combined with one or more fruit, vegetable, nut or grain sources of phenolics to generate protein-phenol complexes within the mixture. The source of phenolics primarily derive from plant waste, residuals, by-products or side streams, such as, for example, the solids which remain after the extraction of juice from fruit or oil pressed from olives, nuts or grains (e.g., pomace), or fruit and vegetables, etc., which could not be sold for some reason or another. In one embodiment, this mixture constitutes an Admixture that can be added to meat analogue formulations. In one embodiment, this mixture constitutes a Base Substance to generate a Meat Analogue and/or Final Product, which can provide a replacement for different types of meat including beef, buffalo, deer, chicken, turkey, pork, fish, shellfish, etc.

A method for separating protein from plant or algae material is disclosed. The method comprises mixing the protein-containing material with a solvent, preferably water; extracting the protein-containing material at pH>7; and acidifying the mixture, thereby precipitating protein and fiber together. In some embodiments of the invention, the separation additionally comprises decanting the mixture to recover a protein/fiber solid; adding water to the protein/fiber solid; adding a predetermined quantity of base to the protein/fiber/water system, thereby precipitating fiber; separating the fiber from the protein in a decanter; and drying the protein solution. In other embodiments, the protein/fiber solid is processed directly, e.g. by being passed to an extruder. The use of the fiber as a carrier for the protein makes the inventive method more efficient than methods known in the art; in particular, the inventive method does not require the use of a high-g clarifier centrifuge.

A method for separating protein from plant or algae material is disclosed. The method comprises mixing the protein-containing material with a solvent, preferably water; extracting the protein-containing material at pH>7; and acidifying the mixture, thereby precipitating protein and fiber together. In some embodiments of the invention, the separation additionally comprises decanting the mixture to recover a protein/fiber solid; adding water to the protein/fiber solid; adding a predetermined quantity of base to the protein/fiber/water system, thereby precipitating fiber; separating the fiber from the protein in a decanter; and drying the protein solution. In other embodiments, the protein/fiber solid is processed directly, e.g. by being passed to an extruder. The use of the fiber as a carrier for the protein makes the inventive method more efficient than methods known in the art; in particular, the inventive method does not require the use of a high-g clarifier centrifuge.

The present embodiments relate to plant-based liquid creamers and/or whiteners and processes for the preparation and use thereof.

The present embodiments relate to plant-based liquid creamers and/or whiteners and processes for the preparation and use thereof.

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 ulirasonication unit according to ulirasonication settings. The ultrasonication settmgs 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 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 ulirasonication unit according to ulirasonication settings. The ultrasonication settmgs 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.

An improved mycelium in the form of an edible aerial mycelium that is suitable for use as a food product, including a food ingredient for making mycelium-based food, such as bacon. A method of making an edible aerial mycelium suitable for use as a food product, including a food ingredient. An edible product containing an edible aerial mycelium, and a method of making an edible product comprising an edible aerial mycelium, such as a mycelium-based bacon. A mycelium-based food product having a texture that is analogous to a whole-muscle meat product, wherein that whole-muscle meat product is bacon.