A process of forming a treated clay composition, a process of decaffeination, and a treated clay composition are shown. The process of forming the treated clay composition includes providing a first solution of caffeine molecules and non-caffeine molecules, extracting the caffeine molecules to form a pretreatment solution, and bringing a clay composition into contact with the pretreatment solution to form the treated clay composition, on which at least one of the non-caffeine molecules is adsorbed. The process of decaffeination includes providing a solution of caffeine and non-caffeine molecules, and bringing the solution into contact with a treated clay composition. The treated clay composition includes organic molecules adsorbed on mineral layers of a clay. The organic molecules are non-caffeine molecules from a pretreatment solution.

A cooking system that utilizes vibration to improve the convenience of preparing food and the quality of the finished product. The system uses a vibrating device coupled to a cooking vessel with a pad and/or isolation blocks disposed between the vibrator and the vessel. The cooking system can be adapted to prepare specific foods in specific quantities, such as popcorn in pre-packaged containers.

The present invention refers to a snack of the potato chips type, comprising at least one starchy material and macroparticles of at least one vegetable material, preferably selected among vegetables and fruits, wherein at least part of said macroparticles is visible to the naked eye and wherein said macroparticles are dispersed in said starchy material. The present invention further refers to a process for producing a snack, and to an unexpanded gelatinized product (pellet).

Method of manufacturing puffed rice for an instant food product. The method includes subjecting rice that is boiled or steamed to first drying by blowing air, at a temperature of 100 degrees C. or lower, onto the rice until the rice is dried to a moisture content of between 20 mass percent and 30 mass percent. After the first drying, the rice is pressed and flattened. After the pressing and flattening, subjecting the rice to second drying performed by ventilation at a temperature of 100 degrees C. or lower until the rice has a specific gravity of between 0.55 g/mL and 0.7 g/mL. After the second drying, subjecting the rice to puffing and drying at a temperature of between 130 degrees C. and 160 degrees C. by directing an air stream onto the rice, said air stream having an air velocity of between 40 m/s and 92 m/s.

Method of manufacturing puffed rice for an instant food product. The method includes subjecting rice that is boiled or steamed to first drying by blowing air, at a temperature of 100 degrees C. or lower, onto the rice until the rice is dried to a moisture content of between 20 mass percent and 30 mass percent. After the first drying, the rice is pressed and flattened. After the pressing and flattening, subjecting the rice to second drying performed by ventilation at a temperature of 100 degrees C. or lower until the rice has a specific gravity of between 0.55 g/mL and 0.7 g/mL. After the second drying, subjecting the rice to puffing and drying at a temperature of between 130 degrees C. and 160 degrees C. by directing an air stream onto the rice, said air stream having an air velocity of between 40 m/s and 92 m/s.

The invention relates to shaped parts produced from popcorn which has previously been hydrophobised with a polymer. This allows very light and flexible shaped parts to be produced.

Filled cluster products comprising an inner material and an outer shell, and methods of manufacturing the same, are disclosed. Outer shells comprising delicate exclusions are susceptible to moisture and force and present a challenge in manufacturing filled cluster products. Typical filled cluster products with delicate extrusions have an outer shell with a high binder to exclusion ratio and significant sugar content. Disclosed herein are methods and formulations for the manufacture of filled cluster products having low binder to exclusion ratio and a low sugar content.

Filled cluster products comprising an inner material and an outer shell, and methods of manufacturing the same, are disclosed. Outer shells comprising delicate exclusions are susceptible to moisture and force and present a challenge in manufacturing filled cluster products. Typical filled cluster products with delicate extrusions have an outer shell with a high binder to exclusion ratio and significant sugar content. Disclosed herein are methods and formulations for the manufacture of filled cluster products having low binder to exclusion ratio and a low sugar content.

Disclosed is an edible, expandable extrudate having a composition that includes a gel-forming component, a crystalline component having a melting point of up to 150° C., water, and additional components that produce an extrudate composition (dough) having no more than 20 dry wt. % starch and no more than 45 dry wt. % protein and a method for producing an edible expanded extrudate product using water incorporated in the extrudate as the puffing or blowing agent to produce a volumetric expansion of at least 200% as a heated and pressurized extrudate is ejected from an extruder such as a twin-screw extruder.

A process of forming a treated clay composition, a process of decaffeination, and a treated clay composition are disclosed. The process of forming the treated clay composition includes providing a first solution of caffeine molecules and non-caffeine molecules, extracting the caffeine molecules to form a pretreatment solution, and bringing a clay composition into contact with the pretreatment solution to form the treated clay composition, on which at least one of the non-caffeine molecules is adsorbed. The process of decaffeination includes providing a solution of caffeine and non-caffeine molecules, and bringing the solution into contact with a treated clay composition. The treated clay composition includes organic molecules adsorbed on mineral layers of a clay. The organic molecules are non-caffeine molecules from a pretreatment solution.