The present disclosure discloses a brown rice and oat bread with low glycemic index and a preparation method thereof, which belongs to the technical field of grain processing. The brown rice and oat bread provided by the present disclosure includes the following ingredients: brown rice flour, gluten powder, oat flour, butter, sodium caseinate, salt, yeast, improver, and water. According to the present disclosure, the sodium caseinate is used to help form a dough and improve the flavor of the bread, and the brown rice and oat bread with low glycemic index is obtained with the brown rice bread recipe and special baking process, which is close to wheat bread in terms of specific volume, taste and tissue structure.

The present disclosure discloses a brown rice and oat bread with low glycemic index and a preparation method thereof, which belongs to the technical field of grain processing. The brown rice and oat bread provided by the present disclosure includes the following ingredients: brown rice flour, gluten powder, oat flour, butter, sodium caseinate, salt, yeast, improver, and water. According to the present disclosure, the sodium caseinate is used to help form a dough and improve the flavor of the bread, and the brown rice and oat bread with low glycemic index is obtained with the brown rice bread recipe and special baking process, which is close to wheat bread in terms of specific volume, taste and tissue structure.

Disclosed is a microcapsule containing: (i) a microcapsule core having an active material, and (ii) a microcapsule wall formed of a first polymer and second polymer. The first polymer is a sol-gel polymer. The second polymer is gum arabic, purity gum ultra, gelatin, chitosan, xanthan gum, plant gum, carboxymethyl cellulose, sodium carboxymethyl guar gum, or a combination thereof. The weight ratio between the first and second polymer is 1:10 to 10:1. Also disclosed are processes for preparing the microcapsule and uses of the microcapsules in consumer products.

Disclosed is a microcapsule containing: (i) a microcapsule core having an active material, and (ii) a microcapsule wall formed of a first polymer and second polymer. The first polymer is a sol-gel polymer. The second polymer is gum arabic, purity gum ultra, gelatin, chitosan, xanthan gum, plant gum, carboxymethyl cellulose, sodium carboxymethyl guar gum, or a combination thereof. The weight ratio between the first and second polymer is 1:10 to 10:1. Also disclosed are processes for preparing the microcapsule and uses of the microcapsules in consumer products.

A device for orienting wound dough products includes a first conveyor belt circulating with a first conveying speed and transporting a wound dough product having an end protruding from a circumference of the dough product. A second conveyor belt receives the wound dough product from the first conveyor belt and circulates with a second conveying speed which is different from the first conveying speed. The difference between the first conveying speed and the second conveying speed sets the wound dough product received from the first conveyor belt in a desired rolling motion on the second conveyor belt, wherein after the wound dough product has reached a defined end position in which the end of the wound dough product abuts on the second conveyor belt, the rolling motion of the wound dough product stops.

A device for orienting wound dough products includes a first conveyor belt circulating with a first conveying speed and transporting a wound dough product having an end protruding from a circumference of the dough product. A second conveyor belt receives the wound dough product from the first conveyor belt and circulates with a second conveying speed which is different from the first conveying speed. The difference between the first conveying speed and the second conveying speed sets the wound dough product received from the first conveyor belt in a desired rolling motion on the second conveyor belt, wherein after the wound dough product has reached a defined end position in which the end of the wound dough product abuts on the second conveyor belt, the rolling motion of the wound dough product stops.

A device for orienting wound dough products includes a first conveyor belt circulating with a first conveying speed and transporting a wound dough product having an end protruding from a circumference of the dough product. A second conveyor belt receives the wound dough product from the first conveyor belt and circulates with a second conveying speed which is different from the first conveying speed. The difference between the first conveying speed and the second conveying speed sets the wound dough product received from the first conveyor belt in a desired rolling motion on the second conveyor belt, wherein after the wound dough product has reached a defined end position in which the end of the wound dough product abuts on the second conveyor belt, the rolling motion of the wound dough product stops.

A device for orienting wound dough products includes a first conveyor belt circulating with a first conveying speed and transporting a wound dough product having an end protruding from a circumference of the dough product. A second conveyor belt receives the wound dough product from the first conveyor belt and circulates with a second conveying speed which is different from the first conveying speed. The difference between the first conveying speed and the second conveying speed sets the wound dough product received from the first conveyor belt in a desired rolling motion on the second conveyor belt, wherein after the wound dough product has reached a defined end position in which the end of the wound dough product abuts on the second conveyor belt, the rolling motion of the wound dough product stops.

An organoleptically pleasing snack food chip that contains a low amount of carbohydrates, a good source of protein, and delivers a crunchy texture includes from about 15% to about 35% of almond flour; from about 20% to about 40% of a source of protein; from about 1% to about 5% of a starch; from about 0.1% to about 2% of a leavening agent; from about 20% to about 55% of oil; and has a moisture content between about 0.1% and about 3%. The almond flour may include a mixture of different types of almond flour. The source of protein may include one or more of one or more milk proteins, one or more plant proteins, and one or more seed proteins.

An organoleptically pleasing snack food chip that contains a low amount of carbohydrates, a good source of protein, and delivers a crunchy texture includes from about 15% to about 35% of almond flour; from about 20% to about 40% of a source of protein; from about 1% to about 5% of a starch; from about 0.1% to about 2% of a leavening agent; from about 20% to about 55% of oil; and has a moisture content between about 0.1% and about 3%. The almond flour may include a mixture of different types of almond flour. The source of protein may include one or more of one or more milk proteins, one or more plant proteins, and one or more seed proteins.