A yeast-containing dough that is used to form a leavened dough product having a desired degree of leavening is initially formed as two separate dough subcomponents that, when combined, leavens through a fermentation reaction process to form a dough having the desired degree of leavening. The first dough subcomponent includes a leavening activator, flour, salt and water, while the second dough component includes a biological leavening agent, flour, and water. When combined, the leavening agent reacts in the presence of the biological leavening activator through a fermentation process to form the dough having a desired degree of leavening, which can then be heated to a temperature exceeding a viability temperature of the leavening activator to terminate the fermentation process and form the leavened dough product. The dough can also be combined with at least one non-dough component to form the leavened dough product.

The present invention relates to a baked product made without any addition of sugar, which still has a suitable sweetness intensity and a good taste. The baked product has a very low content of fructose. The baked product is obtained by a two-step enzymatic process involving a first step of providing sugar from starch, suitable for a fermentation process, followed by a second step of enzymatic hydrolysis of polysaccharides, oligosaccharides and disaccharides, notably to form primarily glucose and maltose. The novel process further allows for an optimized and/or shortened proofing of the dough in the first step.

This invention provides a rolled food that maintains a crispy texture characteristic of a rolled food immediately after deep frying for several hours after deep frying and a method for producing the same. This invention also provides an outer wrapper for a rolled food, such as a spring roll, in which a degree of polymerization of a gluten protein in the outer wrapper baked before rolling is 32.00% or higher and the breaking strength measured using a creep meter under specific conditions is 4.30 N or higher. Further, this invention provides a rolled food prepared with the use of such outer wrapper and a method for producing such outer wrapper and rolled food.

The present invention relates to a method for the manufacture of a baked comestible product, the method comprising: i) forming and shaping a dough; ii) baking the shaped dough to form a baked comestible product; wherein the dough comprises a pre-treated flour, and wherein the pretreatment comprises: a) increasing a moisture content of a flour from an initial value to a value of from 12 to 25 wt % by weight of the flour; b) heating the flour in a sealed vessel to a temperature of from 80 to 120 C. for a period of at least 1 hour; and c) drying the flour to a final moisture content; wherein the final moisture content is in the range of +/2 wt %, relative to the weight of the flour, of the initial value.

The present invention relates to a method for the manufacture of a baked comestible product, the method comprising: i) forming and shaping a dough; ii) baking the shaped dough to form a baked comestible product; wherein the dough comprises a pre-treated flour, and wherein the pretreatment comprises: a) increasing a moisture content of a flour from an initial value to a value of from 12 to 25 wt % by weight of the flour; b) heating the flour in a sealed vessel to a temperature of from 80 to 120 C. for a period of at least 1 hour; and c) drying the flour to a final moisture content; wherein the final moisture content is in the range of +/2 wt %, relative to the weight of the flour, of the initial value.

A food composition and more particularly a moist pet food comprising a proteinaceous meat analogue and the method for obtaining such food composition. Also, a food composition for use in improving digestion or improving periodontal health in a companion animal.

A method is provided for producing intensified whole-cereal flour by means of pulsed electric fields in collaboration with ultrafine pulverization, which includes: (1) preparing bran, middling and flour by cleaning, modulating and milling cereal grains; (2) performing superfine pulverization on the bran and the middling and performing sieving; (3) preparing a suspension by using water and the sieved bran and middling, and stirring constantly; (4) adding polysaccharide colloids into the suspension, and adjusting the pH to 4.0; (5) performing high-voltage pulse treatment on the suspension to ensure stable flow of the suspension; (6) centrifuging the suspension to separate the supernatant, and drying the obtained precipitate and performing sieving to obtain the treated bran and middling; and (7) mixing the treated bran and middling with flour uniformly to obtain whole-cereal flour.

A method is provided for producing intensified whole-cereal flour by means of pulsed electric fields in collaboration with ultrafine pulverization, which includes: (1) preparing bran, middling and flour by cleaning, modulating and milling cereal grains; (2) performing superfine pulverization on the bran and the middling and performing sieving; (3) preparing a suspension by using water and the sieved bran and middling, and stirring constantly; (4) adding polysaccharide colloids into the suspension, and adjusting the pH to 4.0; (5) performing high-voltage pulse treatment on the suspension to ensure stable flow of the suspension; (6) centrifuging the suspension to separate the supernatant, and drying the obtained precipitate and performing sieving to obtain the treated bran and middling; and (7) mixing the treated bran and middling with flour uniformly to obtain whole-cereal flour.

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 molding machine 1 is provided, which molds a gyoza wrapper by rolling a gyoza wrapper material lump. A first roller 12 rolls the gyoza wrapper material lump vertically downward to form an approximately elliptical semi-finished product. A direction changing device 30 including a pendulum 31 is positioned vertically below the first roller 12. The pendulum 31 includes a fulcrum portion 314 and an edge receiving portion 311 positioned closer to the central portion side of the first roller 12 than a position immediately below the fulcrum portion 31, which receives the front edge of the semi-finished product. When the semi-finished product is received by the edge receiving portion 311, the pendulum 31 changes the direction of the semi-finished product. A second roller 22 positioned vertically below the first roller 12 then rolls the semi-finished product vertically downward, so as to form a gyoza wrapper.