A flour made using an admixture composed of starch-containing grain, seed or fruit of a cereal grain or grain legume of low water content extruded in a single screw extruder at an ultra-high extrusion pressure producing an extruded functionally enhanced flour usable as an instantized flour by only adding water. When water is added, the flour forms a paste or dough that is three dimensionally formed or shaped into food products that can be cooked or baked in an oven into human or animal edible food products. The extruded functionally enhanced instantized flour also can be used as an ingredient in other edible food products. A preferred extruded functionally enhanced instant flour is extruded at ultra-high pressure from an admixture composed substantially completely of one or more cereal grains and/or legumes using only the moisture present in the cereal grains and/or legumes.

A method of thermally inhibiting starch or flour is provided. The method involves thermally or non-thermally dehydrating a grain to anhydrous or substantially anhydrous, and then heat treating this dehydrated grain. The heat treated dehydrated grain is then milled, producing thermally inhibited flour and/or starch. Using this method, the shelf life of the resulting thermally inhibited whole grain flour is extended compared whole grain flours that are thermally inhibited after milling.

A method for producing a meat-like food product comprises the steps of: mixing ingredients comprising tofu, water-soluble dietary fibers derived from grain, and gluten to prepare a dough; shaping the dough into a shaped product; and heating the shaped product.

Described are methods and compositions relating to dough compositions leavened by chemical leavening systems that include acidic chemical leavening agent and encapsulated basic chemical leavening agent, wherein the dough composition can be refrigerated in a low pressure package that contains a carbon dioxide atmosphere.

The texture and flavor of bran and germ for the production of whole wheat flour and for the production of baked goods containing whole wheat flour is improved by treating bran and germ with water and an enzyme composition comprising xyanase, pentosanase, or mixtures thereof to hydrate the bran and germ and to enzymatically convert insoluble fiber of the bran and germ into soluble fiber and sugars. The enzymatic conversion is conducted so as to decrease the water holding capacity of the bran and germ and provides a bran and germ product having reduced grittiness and a reduced whole wheat flavor, while avoiding adverse effects on baking functionality. The enzymatic treatment with the xylanase and/or pentosanase may be initiated upon whole wheat berries or grains during tempering or it may be initiated upon a separated bran and germ fraction obtained after grinding or milling of whole wheat berries or grains.

A cereal flour composition is made by subjecting a mixture to a heating treatment, the mixture including: a cereal flour; and 0.2-10 parts by mass of an emulsifier with respect to 100 parts by mass of the cereal flour. Preferably, the emulsifier is a monoglycerol fatty acid ester or lecithin. Preferably, the heating treatment is performed for 2 seconds to 3 minutes at a mixture temperature of 80 to 120° C. Preferably, the heating treatment is a heat-moisture treatment using saturated water vapor. A process for producing the cereal flour composition involves a heating step of directly applying saturated water vapor to the mixture including a cereal flour and an emulsifier, and heating the mixture, wherein the heating step is performed by using a production device including: a transporting path that transports an introduced raw material to an outlet; and a mechanism that introduces saturated water vapor into the transporting path.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, liquid mixing, shaping, cooking, flavoring, biocatalyst mixing, exoskeleton separation, liquid separation, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, liquid mixing, shaping, cooking, flavoring, biocatalyst mixing, exoskeleton separation, liquid separation, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

The present invention relates to a roller to be used as part of an apparatus for spreading and flattening dough, in the context of an industrial bread making line. The dough spreading roller of the present invention is comprised of multiple offset discs installed on a shaft, which accords the roller with an undulating surface. The dough spreading roller of the invention provides a massaging and kneading force to the dough from underneath the conveyor belt. The dough spreading roller also includes end nuts which serve to level the edges of the conveyor belt level during use. The conveyor belt is also provided with a calendar roller located above which provides an opposing and flattening force to said dough spreading roller. The dough is therefore processed between the calendar roller, conveyor, and underlying spreading roller. The invented configuration provides a gentler, less vigorous treatment of the dough which facilitates industrial manufacture of a softer, less processed dough.

The present invention relates to a roller to be used as part of an apparatus for spreading and flattening dough, in the context of an industrial bread making line. The dough spreading roller of the present invention is comprised of multiple offset discs installed on a shaft, which accords the roller with an undulating surface. The dough spreading roller of the invention provides a massaging and kneading force to the dough from underneath the conveyor belt. The dough spreading roller also includes end nuts which serve to level the edges of the conveyor belt level during use. The conveyor belt is also provided with a calendar roller located above which provides an opposing and flattening force to said dough spreading roller. The dough is therefore processed between the calendar roller, conveyor, and underlying spreading roller. The invented configuration provides a gentler, less vigorous treatment of the dough which facilitates industrial manufacture of a softer, less processed dough.