The present invention relates to a breadmaking improver useful in a method for producing a cooked loaf by the final cooking of a precooked loaf stored without freezing. It also relates to an improved breadmaking method that implements the use of this improver. The improver of the invention enables the precooked loaf to be stored at ambient temperature or at positive low temperature for a period ranging up to one month without the freshness and taste qualities thereof being impaired. The method of the invention is useful for all types of loaves, in particular large loaves, the weight of which may reach 2 kg.

A gluten-free grain concentrate (GFGC) food product and stepwise process to prepare GFGC from the treatment of raw unground wheat germ, is provided resulting in a product having at least three active components including (a) 1% to 3% 2,6-dimethoxy-1,4-hydroquinone; (b) 2% to 4% monomethoxy-1,4-benzoquinone; and (c) 0.5% to 1.5% monomethoxy-1,4-hydroquinone; and at least one inactive component: 2,6 dimethyl benzoquinone.

A gluten-free grain concentrate (GFGC) food product and stepwise process to prepare GFGC from the treatment of raw unground wheat germ, is provided resulting in a product having at least three active components including (a) 1% to 3% 2,6-dimethoxy-1,4-hydroquinone; (b) 2% to 4% monomethoxy-1,4-benzoquinone; and (c) 0.5% to 1.5% monomethoxy-1,4-hydroquinone; and at least one inactive component: 2,6 dimethyl benzoquinone.

A process processing fresh brewer's spent grains (BSG), the process comprising the steps of: Producing a mash comprising barley malt; Separating the mash from BSG; Collecting the BSG; Microbiologically stabilizing the collected BSG; drying said BSG; and powdering said dried BSG.

The present disclosure relates to food products having a dough component with a unique appearance and texture. The food product may be a pizza product. In a general embodiment, the dough component of the food product includes malted barley flour in an amount greater than 1% to about 3%, which helps to create and maintain the unique appearance and texture of the food product. Methods for making a dough-based food product are also provided and include mixing a dough having malted barley flour in an amount from about 0.5% to about 3.0%, fermenting the dough, pressing the dough with a die having unique characteristics, and baking the dough to form a baked dough.

The present disclosure relates to food products having a dough component with a unique appearance and texture. The food product may be a pizza product. In a general embodiment, the dough component of the food product includes malted barley flour in an amount greater than 1% to about 3%, which helps to create and maintain the unique appearance and texture of the food product. Methods for making a dough-based food product are also provided and include mixing a dough having malted barley flour in an amount from about 0.5% to about 3.0%, fermenting the dough, pressing the dough with a die having unique characteristics, and baking the dough to form a baked dough.

Squeezeeta is a method of producing pizza dough more quickly and conveniently, for both consumers and manufacturers. It is particularly useful in manufacturing—enabling a shorter assembly line than in current set-ups, faster speeds, and reductions in energy consumption and cost of production. The method produces a packaged good in the form of a squeezable pizza dough in a pouch (sac-à-poche), marketable to both retail consumers and food services. The method can also be used for bread, pasta, croissant, crepes etc. Squeezeeta also enables consumers to create pizza at home from scratch, which is fully customizable in shape, size and crust thickness, and greatly surpasses competitors for freshness, quality and taste. Requiring no special expertise or professional pizza-maker skills, the Squeezeeta method also allows food services operations to achieve huge savings. The Squeezeeta method can be applied, with proper adjustments, to other popular dough-based products (including bread and pasta).

Squeezeeta is a method of producing pizza dough more quickly and conveniently, for both consumers and manufacturers. It is particularly useful in manufacturing—enabling a shorter assembly line than in current set-ups, faster speeds, and reductions in energy consumption and cost of production. The method produces a packaged good in the form of a squeezable pizza dough in a pouch (sac-à-poche), marketable to both retail consumers and food services. The method can also be used for bread, pasta, croissant, crepes etc. Squeezeeta also enables consumers to create pizza at home from scratch, which is fully customizable in shape, size and crust thickness, and greatly surpasses competitors for freshness, quality and taste. Requiring no special expertise or professional pizza-maker skills, the Squeezeeta method also allows food services operations to achieve huge savings. The Squeezeeta method can be applied, with proper adjustments, to other popular dough-based products (including bread and pasta).

Disclosed herein is a process for producing a steeped grain comprising steeping at least one grain at a temperature from about 2° C. to about 29° C. for a period of time less than about 24 hours to a moisture content ranging from about 29% to about 38%; optionally, germinating the at least one grain for less than about 2 days; and kilning with controlled air circulation the at least one grain at a temperature ranging from at least about 49° C. to about 93° C. for less than about 20 hours to a moisture content of about 7% to about 16%. Also disclosed herein is a sprouted grain prepared from the processes disclosed herein. Further disclosed herein are a dough comprising steeped whole grains prepared from the processes disclosed herein, as well as baked goods and beverages comprising steeped whole grains prepared from the processed disclosed herein.

Disclosed herein is a process for producing a steeped grain comprising steeping at least one grain at a temperature from about 2° C. to about 29° C. for a period of time less than about 24 hours to a moisture content ranging from about 29% to about 38%; optionally, germinating the at least one grain for less than about 2 days; and kilning with controlled air circulation the at least one grain at a temperature ranging from at least about 49° C. to about 93° C. for less than about 20 hours to a moisture content of about 7% to about 16%. Also disclosed herein is a sprouted grain prepared from the processes disclosed herein. Further disclosed herein are a dough comprising steeped whole grains prepared from the processes disclosed herein, as well as baked goods and beverages comprising steeped whole grains prepared from the processed disclosed herein.