Starch-free baked comestible goods and aqueous slurries (batters) for preparation of starch-free baked comestible goods include a combination of three different protein components that are protein concentrates or protein isolates, wherein the protein components differ by solubility in water and/or particle size when suspended in an aqueous medium. The combination of three protein components, particularly in certain weight ratios, enables the preparation of starch-free baked comestible goods including doughnuts, muffins, cakes, and bars as well as other commonly recognized desirable comestible formats. The starch-free baked comestible goods have an improved texture and extended shelf-life as compared to previously developed starch-free baked comestible goods.

Starch-free baked comestible goods and aqueous slurries (batters) for preparation of starch-free baked comestible goods include a combination of three different protein components that are protein concentrates or protein isolates, wherein the protein components differ by solubility in water and/or particle size when suspended in an aqueous medium. The combination of three protein components, particularly in certain weight ratios, enables the preparation of starch-free baked comestible goods including doughnuts, muffins, cakes, and bars as well as other commonly recognized desirable comestible formats. The starch-free baked comestible goods have an improved texture and extended shelf-life as compared to previously developed starch-free baked comestible goods.

The present invention relates a sugar reduced wafer composition comprising, 60-80 wt. % of flour, 10-23 wt. % of sucrose, 0.5-8.0 wt. %, preferably 0.5-5 wt. % of oil or fat and 5-20 wt. % of non-digestible fibers wherein the total amount of mono and disaccharides is 10-25 wt. %; all wt. % being in weight percentage of the composition dry mass. The invention also relates to a baked sugar reduced wafer such as a wafer cone or edible container made with this composition and a process for manufacturing the sugar reduced wafer.

The present invention relates a sugar reduced wafer composition comprising, 60-80 wt. % of flour, 10-23 wt. % of sucrose, 0.5-8.0 wt. %, preferably 0.5-5 wt. % of oil or fat and 5-20 wt. % of non-digestible fibers wherein the total amount of mono and disaccharides is 10-25 wt. %; all wt. % being in weight percentage of the composition dry mass. The invention also relates to a baked sugar reduced wafer such as a wafer cone or edible container made with this composition and a process for manufacturing the sugar reduced wafer.

A method of producing a high-protein batter by preparing a first mixture by combining protein, water, and an acidic leavening system. The method further includes mixing the first mixture for a first period of time. A second mixture is prepared by combining at least the first mixture, flour, sweetener, and an alkaline leavening agent. The second mixture is mixed for a second period of time, and then baked to form a high protein baked product such as a waffle.

A method of producing a high-protein batter by preparing a first mixture by combining protein, water, and an acidic leavening system. The method further includes mixing the first mixture for a first period of time. A second mixture is prepared by combining at least the first mixture, flour, sweetener, and an alkaline leavening agent. The second mixture is mixed for a second period of time, and then baked to form a high protein baked product such as a waffle.

The present disclosure discloses a method for reducing the fructan content in food made of rice and flour using microwave heating and belongs to the technical field of food processing. Fermented products made of rice and flour are prepared using microwave heating and fructan in the products can be effectively degraded. Compared with traditional steaming, the method can remarkably reduce the fructan content in the fermented food, effectively alleviate the bowel stress sensitivity to the fermented rice and flour food by patients with irritable bowel syndrome (IBS), meet the daily dietary requirements of special crowds, has the advantages of simple process, green processing and environmental protection, and is suitable for large-scale industrial production.

The present disclosure discloses a method for reducing the fructan content in food made of rice and flour using microwave heating and belongs to the technical field of food processing. Fermented products made of rice and flour are prepared using microwave heating and fructan in the products can be effectively degraded. Compared with traditional steaming, the method can remarkably reduce the fructan content in the fermented food, effectively alleviate the bowel stress sensitivity to the fermented rice and flour food by patients with irritable bowel syndrome (IBS), meet the daily dietary requirements of special crowds, has the advantages of simple process, green processing and environmental protection, and is suitable for large-scale industrial production.

The present disclosure includes methods and compositions using pregelatinized pea starch in fried batter coatings to provide viscosity, to prevent sedimentation by eliminating the need for other hydrocolloids such as xanthan or guar gum, and to improve crispness in fried foods.

The present disclosure includes methods and compositions using pregelatinized pea starch in fried batter coatings to provide viscosity, to prevent sedimentation by eliminating the need for other hydrocolloids such as xanthan or guar gum, and to improve crispness in fried foods.