A protein-rich food product comprising water and solids, wherein at least 70% of the solids consist of protein, and a method for making the protein-rich food product. The protein-rich food product is capable of replacing flour food products as a low-calorie, gluten-free, high-protein alternative.

Composite plant-MCT flour includes MCT oil encapsulated by and/or complexed with wall material and incorporated within the composite plant-MCT flour, wherein polysaccharide from the plant flour forms part of the wall material. The wall material includes protein, e.g., pea protein, carbohydrate, and emulsifier(s), and/or polysaccharide fiber, e.g., acacia fiber. The plant flour may be gluten-flour, gluten-free flour and/or low carbohydrate seed, nut or vegetable floor. Composite plant-MCT flour can replace traditional flours to make food products, such as baked, fried or boiled goods but with benefits, such as reduced gluten and/or carbohydrates, increased freshness and volume and improved texture and taste compared to alternative flours and even all-purpose flour.

Composite flour includes native plant flour and complexed MCT and/or other nutritional oil at least partially encapsulated by wall material and incorporated within the composite flour, wherein polysaccharide from a portion of the native plant flour forms part of the wall material. The wall material includes protein, e.g., pea protein, polysaccharide released from the native plant flour, and emulsifier(s), and/or polysaccharide fiber, e.g., acacia fiber. The native plant flour may be gluten-flour, gluten-free flour and/or low carbohydrate seed, nut or vegetable floor. Composite flours can replace traditional flours to make food products, such as baked, fried or boiled goods but with benefits, such as reduced gluten and/or carbohydrates, increased freshness and volume and improved texture and taste compared to alternative flours and even all-purpose flour. Composite flour can be blended with native flour and/or another composite flour to form blended flour.

High-protein food additives are prepared by reacting a protein material with L-cysteine, or a derivative thereof, with homogenization and heating. The homogenization and heating is preferably carried out on an aqueously slurry of the protein material and L-cysteine. The homogenized and reacted slurry is then dried to form a powder. The resultant food additive may be incorporated into a wide variety of food products to enhance the physical characteristics thereof.

Composite flour includes native plant flour and complexed MCT and/or other nutritional oil at least partially encapsulated by wall material and incorporated within the composite flour, wherein polysaccharide from a portion of the native plant flour forms part of the wall material. The wall material includes protein, e.g., pea protein, polysaccharide released from the native plant flour, and emulsifier(s), and/or polysaccharide fiber, e.g., acacia fiber. The native plant flour may be gluten-flour, gluten-free flour and/or low carbohydrate seed, nut or vegetable flour. Composite flours can replace traditional flours to make food products, such as baked, fried or boiled goods but with benefits, such as reduced gluten and/or carbohydrates, increased freshness and volume and improved texture and taste compared to alternative flours and even all-purpose flour. Composite flour can be blended with native flour and/or another composite flour to form blended flour.

Composite flour includes native plant flour and complexed MCT and/or other nutritional oil at least partially encapsulated by wall material and incorporated within the composite flour, wherein polysaccharide from a portion of the native plant flour forms part of the wall material. The wall material includes protein, e.g., pea protein, polysaccharide released from the native plant flour, and emulsifier(s), and/or polysaccharide fiber, e.g., acacia fiber. The native plant flour may be gluten-flour, gluten-free flour and/or low carbohydrate seed, nut or vegetable flour. Composite flours can replace traditional flours to make food products, such as baked goods, fried goods, boiled goods, or uncooked goods, but with benefits, such as reduced gluten and/or carbohydrates, increased freshness and volume and improved texture and taste compared to alternative flours and even all-purpose flour. Composite flour can be blended with native flour and/or another composite flour to form blended flour.

A protein-rich food product comprising water and solids, wherein at least 70% of the solids consist of protein, and a method for making the protein-rich food product. The protein-rich food product is capable of replacing flour food products as a low-calorie, gluten-free, high-protein alternative.

The invention relates to a dry expanded food product comprising the following essential ingredients: a food-grade protein concentrate of animal or plant origin, and residual water. The expansion can be obtained during a step of treatment in a microwave device.

Composite plant-MCT flour includes MCT oil encapsulated by and/or complexed with wall material and incorporated within the composite plant-MCT flour, wherein polysaccharide from the plant flour forms part of the wall material. The wall material includes protein, e.g., pea protein, carbohydrate, and emulsifier(s), and/or polysaccharide fiber, e.g., acacia fiber. The plant flour may be gluten-flour, gluten-free flour and/or low carbohydrate seed, nut or vegetable floor. Composite plant-MCT flour can replace traditional flours to make food products, such as baked, fried or boiled goods but with benefits, such as reduced gluten and/or carbohydrates, increased freshness and volume and improved texture and taste compared to alternative flours and even all-purpose flour.

A protein-rich food product comprising water and solids, wherein at least 70% of the solids consist of protein, and a method for making the protein-rich food product. The protein-rich food product is capable of replacing flour food products as a low-calorie, gluten-free, high-protein alternative.