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.

The invention relates to a heat-stable fermented white lentil beverage and process for preparing the same.

Disclosed are methods of processing raw leguminous materials, such as pea flour, pea concentrate, or pea isolate, to reduce non-volatile flavor components and in particular bound saponin compounds. The methods includes select processing steps by steam cooking a raw slurry to form a cooked slurry and drying the cooked slurry to form a processed material. An amount of non-volatile flavor components in the processed material is less than an amount of non-volatile flavor components in the raw materials.

Provided is a method for manufacturing a composition of fermented soybean products and a composition of fermented soybean products manufactured by the method.

A desolventizer for processing solvent-wet solid material may include a thermal recirculation loop to increase thermal performance. In some examples, the desolventizer includes a housing, an ejector, and a vent. The housing contains a first tray and a second tray vertically elevated above the first tray to define a processing space. The ejector has an inlet located between the first tray and the second tray and an outlet also located between the first tray and the second tray. The vent has an inlet located between the first tray and the second tray. In operation, the ejector can draw gas from the processing space via the inlet and discharge the gas through the outlet back into the processing space, creating a recirculation loop.

A method and system provides for for de-oiling and extracting protein from chickpeas prior to generating chickpea protein concentrate. The method and system includes receiving a chickpea flour generated from the chickpeas, including having cortex material removed from the chickpeas and generating an ethanol mixture by mixing the chickpea flour with ethanol to remove at least a portion of the oil content from the chickpea flour. The method and system includes separating the ethanol mixture into a de-oiled chickpea flour and an ethanol recycling stream having organics from the chickpea flour absorbed therein. Therein, the method and system includes extracting a protein concentrate from the de-oiled flour.

The present invention relates to legumes, and or nuts, and or seeds, and products containing the legumes, nuts and or seeds and to their methods of preparation. More particularly, the present invention is directed towards eliminating plant protein lectins in legumes, and or nuts, and or seeds and to the methods of preparation. Plant lectins are proteins produced by plants as a poisonous defense, and found in many of the foods we eat containing nuts and or legumes and or seeds. Everyday people enjoy eating snacks like; health/nutrition bars, candy bars, soy beans, cashews or even a can of peanuts containing the plant protein lectins. Many of whom are having adverse effects from plant protein lectins.

In the Present Invention, the legumes, and or nuts, and or seeds are processed using methods unused and unknown to one skilled in the art. Resulting in legumes, and or nuts, and or seeds in which the plant protein lectins are removed. And these processed legumes, and or nuts, and or seeds are further processed to accept various coatings used in the trade and directed towards providing multiple edible products containing legumes, and or nuts, and or seeds free of plant protein lectins. Food products including but not limited to, dough, health bars, cereals, yogurt, pastries, ice cream, and the like, as well as pet foods and animal feeds. Another process, the different products are packaged for consumer consumption and/or commercial uses. Also provided are typical methods used for production of these products in the art.

The present invention relates to a plant protein fraction from legumes or oil seeds for use in foodstuffs or in feedstuffs and to a process for producing the plant protein fraction. In the process a first protein fraction is separated from comminuted leguminous seeds or oil seeds using a solvent to leave behind a second protein fraction, and a water-containing protein fraction obtained by this fractionating step directly or after addition of water is subjected to treatment with enzymes one or more times, a heating to a temperature>70 C. one or more times, optionally a fermentation one or more times and a pressure and/or shear treatment one or more times. The plant protein fraction produced with the process exhibits a reduced immunoreactivity and has good techno-functional and organoleptic properties.

A dry fractionation method and system provides for generating a protein concentrate product therefrom. The method and system includes milling a plant-based flour to generate milled flour and generating a first protein concentrate from the milled flour using an air classifier. The method and system includes processing the first protein concentrate to generate a protein rich curd and generating a neutral hydrolyzed protein slurry by mixing the protein curd with a base, water and enzymatic cocktail. The method and system includes generating a homogenized protein slurry from the protein slurry and generating a cooled protein slurry by pasteurizing the homogenized protein slurry. Therein, the method and system provides for extracting the protein concentrate product from the cooled protein slurry.

Compositions and methods for producing food and drink products containing milled anthocyanin-rich legumes from the Fabaceae family are disclosed that may lower the glycemic index, increase the duration of nutritionally-derived energy availability over simple carbohydrates, increase nutritional fiber content, reduce hyperglycemia, hyperinsulinemia, hyperleptinemia, total lipids, and cellular anabolism and energy consumption, and increase cellular catabolism and energy production. Using the methods of the present invention, legumes are milled into microparticulate form to increase nutrient availability and to reduce flatulence and other side-effects associated with prior art anthocyanin extraction techniques. Using a method of the present invention, lectins are significantly deactivated, thereby eliminating or substantially reducing hemagglutination.