An edible composition comprising starch and cellulose ether particles, wherein at least 10 volume percent of the cellulose ether particles have a particle length LEFI of less than 40 micrometers, is useful for preparing a batter by mixing the edible composition with water. The batter is contacted with a food to prepare a battered food. The battered foods have a reduced oil and/or fat uptake when fried, as compared to fried non-battered food.

An edible composition comprising starch and cellulose ether particles, wherein at least 10 volume percent of the cellulose ether particles have a particle length LEFI of less than 40 micrometers, is useful for preparing a batter by mixing the edible composition with water. The batter is contacted with a food to prepare a battered food. The battered foods have a reduced oil and/or fat uptake when fried, as compared to fried non-battered food.

Improved confectionary compositions using a reduced salt mixture comprising at least one salt substitute, modified salt or modified salt substitute having at least two different particle sizes which give an acceptable texture, stability, clarity and flavor delivery, while having less sodium chloride than traditional salted confectionary compositions.

Improved confectionary compositions using a reduced salt mixture comprising at least one salt substitute, modified salt or modified salt substitute having at least two different particle sizes which give an acceptable texture, stability, clarity and flavor delivery, while having less sodium chloride than traditional salted confectionary compositions.

Provided herein are methods and processes for emulsifying non-polar compounds, such as omega fatty acids. Also provided are compositions that can be prepared according to the methods and processes described herein. The compositions, for example, have a high amount of the non-polar compound, such as a large amount of omega fatty acids. The non-polar compounds are also present in very small droplets within composition. For example, the mean or median particle size of the droplets is less than about 5 m. Further, the composition includes a low amount of surfactant, such as less than about 10-15% of the surfactant.

Provided herein are methods and processes for emulsifying non-polar compounds, such as omega fatty acids. Also provided are compositions that can be prepared according to the methods and processes described herein. The compositions, for example, have a high amount of the non-polar compound, such as a large amount of omega fatty acids. The non-polar compounds are also present in very small droplets within composition. For example, the mean or median particle size of the droplets is less than about 5 m. Further, the composition includes a low amount of surfactant, such as less than about 10-15% of the surfactant.

Potassium bicarbonate is coated with an anionic or amphoteric surfactant, which is preferably a metal soap, such as calcium stearate, to inhibit caking on storage, and premature loss of carbon dioxide when mixed with acidulant, e.g. in a baking powder or self-raising flour blend. Loss of carbon dioxide in the blend may be further inhibited by coating the acidulant with surfactant. Combination of surfactant coating with an inorganic anti-caking agent such as silicon dioxide gives synergistic protection against caking of the potassium bicarbonate. Preferably the bicarbonate has D50 of between 35 and 200 and is free from particles greater than 400.

Potassium bicarbonate is coated with an anionic or amphoteric surfactant, which is preferably a metal soap, such as calcium stearate, to inhibit caking on storage, and premature loss of carbon dioxide when mixed with acidulant, e.g. in a baking powder or self-raising flour blend. Loss of carbon dioxide in the blend may be further inhibited by coating the acidulant with surfactant. Combination of surfactant coating with an inorganic anti-caking agent such as silicon dioxide gives synergistic protection against caking of the potassium bicarbonate. Preferably the bicarbonate has D50 of between 35 and 200 and is free from particles greater than 400.

The invention concerns a vegetable butter in the form of a paste, obtained from non-animal raw materials, which is capable of fully or partially replacing fats of vegetable and/or animal origin, and more particularly animal fats such as butter. The invention also concerns its uses as novel products in the fields of breadmaking and/or patisserie and/or viennoiserie. The invention further concerns the breadmaking, patisserie and viennoiserie products obtained by the use of said vegetable butter in their recipes.

The invention concerns a vegetable butter in the form of a paste, obtained from non-animal raw materials, which is capable of fully or partially replacing fats of vegetable and/or animal origin, and more particularly animal fats such as butter. The invention also concerns its uses as novel products in the fields of breadmaking and/or patisserie and/or viennoiserie. The invention further concerns the breadmaking, patisserie and viennoiserie products obtained by the use of said vegetable butter in their recipes.