A method for making candies comprises steps of: a) providing oil, sugar, syrup, emulsifier, protein powder and hydrated colloid; b) evenly stirring the materials in a deoxygenated environment with a pressure of 10˜50 mmHg and a temperature of 115˜125° C. to form a stuffing; c) cooling the stuffing to 24˜26° C. under a relative humidity of 10˜15% and a pressure of 10˜50 mmHg; d) increasing the pressure of the stuffing to 370˜390 mmHg, adding dormant probiotic powder into the stuffing, and evenly mixing the stuffing to form a sugar core; e) increasing to atmospheric pressure for the sugar core; f) in the absence of air, encapsulating the sugar core with a encapsulating sugar mass at a temperature of 50˜60° C. to form a probiotic sugar bar; and g) stretching the probiotic sugar bar, and then cooling down the temperature to 18-22° C. within 5 seconds and cutting the probiotic sugar bar to form candies.

The present invention relates to the field of confectionery products. More particularly, the invention relates to an abrasive confectionery product and a process for producing the same. The product comprises abrasive inclusions which are uniformly dispersed throughout a base material.

The present invention relates to the field of confectionery products. More particularly, the invention relates to an abrasive confectionery product and a process for producing the same. The product comprises abrasive inclusions which are uniformly dispersed throughout a base material.

A method for making campfire marshmallow candy, defined as crispy snacks derived from marshmallows and having a toasted marshmallow flavor. The method includes receiving a substantially single layer of marshmallows onto a reception tray. A dehydration unit removes moisture from the marshmallows at approximately 140 degrees Fahrenheit for between 8 and 24 hours, resulting in the marshmallows taking on approximately 80% of their original weight. The dehydrated marshmallows are cooled before a toasting unit toasts the marshmallows on one side. After a second cooling, the marshmallows are flipped and toasted again at a high heat of approximately 500 degrees Fahrenheit. After a third cooling, the marshmallows are dehydrated again before being cooled to create a candy that may be crushed to a-powder form. Each cooling brings the marshmallow product to a temperature between 55 and 85 degrees Fahrenheit. The resultant candy may be vacuum packaged.

A method for making campfire marshmallow candy, defined as crispy snacks derived from marshmallows and having a toasted marshmallow flavor. The method includes receiving a substantially single layer of marshmallows onto a reception tray. A dehydration unit removes moisture from the marshmallows at approximately 140 degrees Fahrenheit for between 8 and 24 hours, resulting in the marshmallows taking on approximately 80% of their original weight. The dehydrated marshmallows are cooled before a toasting unit toasts the marshmallows on one side. After a second cooling, the marshmallows are flipped and toasted again at a high heat of approximately 500 degrees Fahrenheit. After a third cooling, the marshmallows are dehydrated again before being cooled to create a candy that may be crushed to a-powder form. Each cooling brings the marshmallow product to a temperature between 55 and 85 degrees Fahrenheit. The resultant candy may be vacuum packaged.

A method for identifying and removing tissue from a food product that includes generating a three-dimensional model of a food product using a scanner and mapping the three-dimensional model onto the food product. The method also includes scanning the food product such that cross-sectional scanning images are generated based on the model, and, for each cross-sectional scanning image, determining a maximum thickness of the model and identifying a corresponding estimated tissue point, by using an identification method based on suitable characteristics of the food product model. The method includes fitting a curve to the estimated tissue points and generating a cut path based on the fitted curve, wherein the cut path defines an area of unwanted tissue that includes the estimated tissue points. The method further includes cutting the food product along the cut path, thereby, removing the area of unwanted tissue.

A method for identifying and removing tissue from a food product that includes generating a three-dimensional model of a food product using a scanner and mapping the three-dimensional model onto the food product. The method also includes scanning the food product such that cross-sectional scanning images are generated based on the model, and, for each cross-sectional scanning image, determining a maximum thickness of the model and identifying a corresponding estimated tissue point, by using an identification method based on suitable characteristics of the food product model. The method includes fitting a curve to the estimated tissue points and generating a cut path based on the fitted curve, wherein the cut path defines an area of unwanted tissue that includes the estimated tissue points. The method further includes cutting the food product along the cut path, thereby, removing the area of unwanted tissue.

The invention provides a sugar composition for use in the manufacture of foodstuffs, said composition comprising a suspension of a fine sugar having a mean particle size of less than 30 microns in glucose syrup. This composition allows for energy efficient production of products including frappe, and methods as well as apparatus used in these methods form further aspects of the invention.

The invention provides a sugar composition for use in the manufacture of foodstuffs, said composition comprising a suspension of a fine sugar having a mean particle size of less than 30 microns in glucose syrup. This composition allows for energy efficient production of products including frappe, and methods as well as apparatus used in these methods form further aspects of the invention.

The present invention relates to products from porous materials, generated by foaming with gas hydrates or gas hydrate slurries dosed into matrices of biological, organic or inorganic materials in their liquid to paste-like state. A method of producing a water phase continuous slurry comprising gas hydrates, a method of producing a porous powder or foam as well as the use of gas hydrates for producing a porous powder or foam or for gasifying viscous liquid are also claimed. The porous powder or viscous foam, wherein the powder or foam has a closed porosity of 15% to 100%, or 20% to 50%, or 25% to 35%, or 30 to 35%, or about 30%.