A method of identifying a selected pollination window in a Poaceae crop by monitoring one or more environmental parameters and identifying a selected pollination window based upon the monitored parameters. The correct selection of parameters has been shown to markedly increase seed set, yield, and/or other desirable characteristics, including but not limited to preferred content of oil, starch, protein, and/or other nutritional components. Parameters may include one or more of: temperature, relative humidity, and vapor pressure deficit.

Disclosed is an apparatus and a method for soaking foodstuff in a liquid under set acid pH conditions of the liquid so as to reduce a content of phytic acid and/or phytate contained in the foodstuff. The apparatus comprises a vessel for receiving the foodstuff and for receiving the liquid for soaking the foodstuff within the vessel. The apparatus further comprises an amount determining system which is configured to determine an amount of the liquid and/or an amount of the foodstuff to be used for the soaking within the vessel and a pH adjusting system configured to perform an electrolysis of at least a portion of the liquid for adjusting a pH level of the liquid. The method comprises supplying an amount of the foodstuff and an amount of the liquid to a vessel; wherein the amount of foodstuff and/or the amount of the liquid is determined using an amount determining system; wherein a pH level of the liquid is adjusted using a pH adjusting system configured to perform an electrolysis of at least a portion of the liquid.

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 a soy milk containing methylpyrazine compounds consisting of 2-methylpyrazine, 2,5-dimethylpyrazine and 2,6-dimethylpyrazine at a quantity of 40 to 7000 g per 1 L.

Compositions and methods for producing food and drink products containing milled anthocyanin-rich legumes from the Fabaceae family are shown 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.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. A product is produced by a method comprising de-solubilizing protein in a first material comprising oilcake to produce a processed material comprising an insoluble protein fraction by extruding the first material in a pressure range of 10 bar to 80 bar. 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 the product by extruding the insoluble protein fraction in a pressure range of 10 bar to 80 bar.

Whole-legume food products and methods of making whole-legume food products are described.

Whole-legume food products and methods of making whole-legume food products are described.

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.

This abstract refers to an invention patent, for soy sauce production equipment and process, belonging to the field of the food product production media, such equipment comprised of: first set (100) comprised of: device (1), (2) to feed soybean and corn grains in their natural conditions and blended; cold-press extruder (3), receiving the soybean and corn grain blend in their natural conditions and obtaining homogeneous soy-corn agglomerate (5); size adjustment unit (6), adjusting the homogeneous soy-corn agglomerate 5 size and/or particle size; moisture adjustment unit (7); microorganism inoculation unit (8); and automated stove (9) responsible for the first fermentation for 40.00 to 72.00 hours of the crushed soy-corn mass, with adjusted moisture and inoculated with microorganism, after such fermentation the basic ingredient (koji) is obtained, which is then transferred to the second set (200), with usual construction, which processes the koji until finally obtaining the soy sauce.