A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

Disclosed is a method for producing a food-safe dried sprouted seed product, which is especially useful for producing dried sprouted grain and oil seed products. The method results in the reduction or elimination of pathogenic microorganisms in the sprouted seed product and/or powdered seed products produced therefrom.

A system for measuring a sensor having two terminals includes first and second transistors with first and second control signal inputs connected to the sensor terminals. The system further includes a current divider including a reference current input, a current divider control input and first and second current outputs connected to the first and second transistors. First and second load circuits are connected to the first and second transistors at first and second differential output nodes. First and second integrating circuits are connected to the first and second differential output nodes. A comparator is driven by first and second differential output nodes. The comparator output controls a digital integrator. A value of a current divider control signal driving the current divider control input depends at least indirectly from the digital integrator.

Methods are provided which include steeping and/or spraying a harvested cereal grain, such as barley, wheat, rye, millet, corn (maize), rice, or oats, in or with an aqueous solution including an effective amount of chlorine dioxide to provide a treated cereal grain. The treated cereal grain obtained from chlorine-dioxide steeping and/or spraying generally has a reduced microorganism and/or toxin content, and may be subjected to additional malting processes.

Methods are provided which include steeping and/or spraying a harvested cereal grain, such as barley, wheat, rye, millet, corn (maize), rice, or oats, in or with an aqueous solution including an effective amount of chlorine dioxide to provide a treated cereal grain. The treated cereal grain obtained from chlorine-dioxide steeping and/or spraying generally has a reduced microorganism and/or toxin content, and may be subjected to additional malting processes.

A method for producing a high-purity rice protein powder and a rice syrup is provided. The method includes: homogenizing a rice slurry, adding amylase thereto, heating the resulting mixture for a reaction to obtain a rice syrup liquid, and subjecting same to centrifugal separation to separately obtain a liquid-phase rice sugar liquid and a first precipitate; subjecting the liquid-phase rice sugar liquid to decoloration, ion exchange and evaporation to obtain a rice syrup, adding the first precipitate into second wastewater, and subjecting same to washing and centrifugal dewatering to obtain a second precipitate; adding pure water into the second precipitate, stirring same until uniform, heating same to 60 C. or more, maintaining the temperature, and dehydrating same to obtain a filter cake and second wastewater; and crushing and drying the filter cake to obtain a rice protein powder with a high purity and without thermal denaturation.

A method for producing a high-purity rice protein powder and a rice syrup is provided. The method includes: homogenizing a rice slurry, adding amylase thereto, heating the resulting mixture for a reaction to obtain a rice syrup liquid, and subjecting same to centrifugal separation to separately obtain a liquid-phase rice sugar liquid and a first precipitate; subjecting the liquid-phase rice sugar liquid to decoloration, ion exchange and evaporation to obtain a rice syrup, adding the first precipitate into second wastewater, and subjecting same to washing and centrifugal dewatering to obtain a second precipitate; adding pure water into the second precipitate, stirring same until uniform, heating same to 60 C. or more, maintaining the temperature, and dehydrating same to obtain a filter cake and second wastewater; and crushing and drying the filter cake to obtain a rice protein powder with a high purity and without thermal denaturation.

A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

A process that produces a non-alcohol cereal beverage (NACB) includes separating an input fermented malt beverage (FMB) into an output FMB and the NACB, wherein the separating includes multiple stages; and adding water during the separating so that the output FMB has the same alcohol by volume (ABV) as the input FMB during each stage of the separating.