Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. The method comprises de-solubilizing protein in a material comprising oilcake to produce a processed material comprising an insoluble protein fraction. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into a product.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. The method comprises de-solubilizing protein in a material comprising oilcake to produce a processed material comprising an insoluble protein fraction. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into a product.

A use of texturized dairy proteins is suggested, obtainable or obtained by providing (a) a mixture, containing or consisting of (a1) about 25 to about 75% by weight dairy proteins, and (a2) about 75 to about 25% by weight a plant protein and/or a fibre material with the proviso that the quantities add up to 100% by weight, (b) the mixture is extruded in the presence of water and/or whey, applying a temperature gradient of about 20 to about 200 C. and a pressure in the range of 1 to about 200 bar, and (c) subsequently expanding the extrudate,
as a substitute for carbohydrates and as a source of protein in foods.

A use of texturized dairy proteins is suggested, obtainable or obtained by providing (a) a mixture, containing or consisting of (a1) about 25 to about 75% by weight dairy proteins, and (a2) about 75 to about 25% by weight a plant protein and/or a fibre material with the proviso that the quantities add up to 100% by weight, (b) the mixture is extruded in the presence of water and/or whey, applying a temperature gradient of about 20 to about 200 C. and a pressure in the range of 1 to about 200 bar, and (c) subsequently expanding the extrudate,
as a substitute for carbohydrates and as a source of protein in foods.

The present invention relates to a savoury concentrate comprising: a. at least 30 wt. %, by weight of the concentrate, of an oil phase comprising liquid oil; b. 3-30 wt. %, by weight of the concentrate, of an edible salt; c. 1-50 wt. %, by weight of the concentrate, of savoury taste giving ingredients; d. up to 10 wt. %, by weight of the concentrate, of water; and e. expanded gelatinized starch particles;
wherein the expanded gelatinized starch particles are dispersed in the oil phase in a concentration of 0.5 to 35 wt. %, by weight of the combined weight of the liquid oil and the gelatinized starch particles.

The invention further relates to a method for the preparation of the savoury concentrate and to a process for preparing a ready-to-eat savoury product using the savoury concentrate.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. The method comprises de-solubilizing protein in a material comprising oilcake to produce a processed material comprising an insoluble protein fraction. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into a product.

Provided is a food composition which include a myceliated high-protein food product and methods to make such compositions, which are mixtures of myceliated high-protein food products and other edible materials. A food composition includes dairy alternative products, ready to mix beverages and beverage bases; extruded and extruded/puffed products; sheeted baked goods; meat analogs and extenders; baked goods and baking mixes; granola; and soups/soup bases. Food compositions also include texturized plant protein which can be used for making meat-structured plant protein meat analog or meat extender products. The food compositions have reduced undesirable flavors and reduced undesirable aromas due to use of myceliated high-protein food products as compared to use of similar high-protein material that is not myceliated.

An extruder with a non-stop die change device includes an extrusion cavity, a die change device located at the outlet of the extrusion cavity, and a first die and a second die that are connected to the side wall of a housing of the die change device. A transfer channel is provided in a movable block of the die change device. When the movable block moves to a first position in the housing, the transfer channel communicates to the extrusion cavity with a first channel, and when the movable block moves to a second position in the housing, the transfer channel communicates to the extrusion cavity with a second channel. Therefore, die change and product type change can be achieved without stopping the extruder. If a die is blocked, the extruder does not need to stop for changing a new die.

An extruder with a non-stop die change device includes an extrusion cavity, a die change device located at the outlet of the extrusion cavity, and a first die and a second die that are connected to the side wall of a housing of the die change device. A transfer channel is provided in a movable block of the die change device. When the movable block moves to a first position in the housing, the transfer channel communicates to the extrusion cavity with a first channel, and when the movable block moves to a second position in the housing, the transfer channel communicates to the extrusion cavity with a second channel. Therefore, die change and product type change can be achieved without stopping the extruder. If a die is blocked, the extruder does not need to stop for changing a new die.

The present invention relates to a process for preparing an edible foodstuff from food industry waste stream byproducts. This process involves the steps of: (i) combining, in an extruder, an extrusion formulation comprising a first food byproduct and at least one additional ingredient; (ii) introducing supercritical carbon dioxide (SC-CO.sub.2) into the extruder to mix with the first food byproduct and the at least one additional ingredient; and (iii) producing an edible foodstuff containing the first food byproduct and the at least one additional ingredient, where the edible foodstuff comprises an extrudate prepared under supercritical fluid extrusion (SCFX) conditions. The present invention also relates to a process for preparing an edible foodstuff from a protein concentrate. The present invention further relates to edible foodstuffs produced by the various processes disclosed herein.