Milling quality wheat is milled by first removing germ and outer bran layers amounting to approximately 8-10 % of the weight of the wheat in a pearling process. The pearled wheat is then milled in a conventional roller mill to produce flour or semolina. Unexpectedly high yields have been observed, and the process yields a milled product which is unusually high in aleurone cell wall fragments for a given ash content.
A wheat flour, and dough made from the flour, are produced using between 5-50% (desirably 15-45%, preferably 25-35%) by weight middlings (e.g. from the first and second breaks) added to straight flour, patent flour, break flour, or clear flour. The flour with middlings can hold more free moisture, and an at least an additional 2-20% by weight dietary minerals (such as calcium, zinc, iron, manganese, phosphorus, etc.) and/or fibers, and/or other edible materials, can be added without disturbing the fermentation or baking processes. For example, bread having at least 50% (e.g. 50-200%) of the RDA of calcium per 32 gm slice may be produced without emulsifiers, calcium citrate, or other equivalent chemical additives.
A wheat flour, and dough made from the flour, are produced using between 5-50% (desirably 15-45%, preferably 25-35%) by weight middlings (e.g. from the first and second breaks) added to straight flour, patent flour, break flour, or clear flour. The flour with middlings can hold more free moisture, and an at least an additional 2-20% by weight dietary minerals (such as calcium, zinc, iron, manganese, phosphorus, etc.) and/or fibers, and/or other edible materials, can be added without disturbing the fermentation or baking processes. For example, bread having at least 50% (e.g. 50-200%) of the RDA of calcium per 32 gm slice may be produced without emulsifiers, calcium citrate, or other equivalent chemical additives.
