An instant food composition containing flaked quinoa seeds and a method of preparation of ready to eat food composition containing quinoa seeds. The method of preparation of instant food composition containing flaked quinoa seeds includes soaking the quinoa seeds in a hot liquid at its boiling temperature for a predetermined temperature, drying the boiled quinoa seeds at room temperature for a predetermined period, roasting the dried quinoa seeds for a predetermined period, flattening of quinoa seeds to form flakes, drying of quinoa flakes for a predetermined period, coating of quinoa flakes with edible oil, coating of quinoa flakes with edible starch on edible oil coated quinoa flakes within predetermined period, coating of quinoa flakes with edible oil on the starch Coated quinoa flakes.

A multilayer edible product includes a center, a barrier layer directly encompassing at least a portion of the center, and an outer layer directly encompassing the barrier layer and indirectly encompassing the center. The barrier layer includes a hydrophilic powder and a source of fat. The center has at least one of: a fat content that is either greater than or less than a fat content of the outer layer, or a water activity that is either greater than or less than a water activity of the outer layer. A composition of the barrier layer is different than a composition of the center and a composition of the outer layer.

A roasting and glazing apparatus includes a housing having a top peripheral surface with an opening defined by an interior edge, a roaster bowl movable from within the housing, through the opening, to an elevated position above the housing, and a pour tray configured to detachably couple to the interior edge, and to receive and guide a fluid exiting the roaster bowl when the roaster bowl is in the elevated position. The pour tray has a bottom surface and a mounting bracket extending from the bottom surface. The mounting bracket is configured to detachably couple to the interior edge of the housing defining the opening. In an assembled configuration, the bottom surface of the pour tray is oriented at an angle relative to the top peripheral surface of the housing and supported by a shoulder or side peripheral surface of the housing.

Coated seed products with a roasted flavor and a crunchy, crispy starch coating are provided. In another aspect, the coated seed products are provided without a high level of saturated fat.

A coated foodstuff is made using two starch components. One is a spray cooked agglomerated waxy corn starch as having a peak time to hydration viscosity of between about 5.5 and about 7.5 minutes. The snack has unique expansion and hardness properties compared to coatings made from other corn starches, in embodiments the snack has a coating that expands to between about 1.7 and about 2.6 mm, a hardness of between about 3000 and about 3750 grams, or a hardness-to-expansion ratio of about 1200:1 to about 2200:1 g/mm.

A roasting and glazing apparatus includes a roaster, an agitator mounted within the roaster bowl for mixing a mixture of nuts and sugar during a roasting or glazing operation, a heater controlled to heat the roaster bowl during the roasting or glazing operation, and a cover removably mounted to the roaster bowl. The cover includes a reservoir for receiving water from a user and restricting water flow from the reservoir into the mixture of nuts and sugar in the roaster bowl. The cover and the roaster bowl together define a vent on a side of the cover opposite the reservoir. The vent is configured to direct steam out of the roaster bowl in a direction away from the reservoir.

Salt particles adhered to a bulk carrier of the present invention are improved over prior alternative salts by having smaller salt particles adhered to a bulk carrier are achieved through modifications of variables for production of salt adhered to carrier particles, including starting solid composition, salt-carrier slurry composition, inlet and outlet drying temperature, slurry temperature, and moisture content control. The resulting salt-carrier product of salt adhered to carrier particles can be produced with much smaller salt particles of about 100 nanometers to less than 2 microns adhered to a carrier, which in turn improves electrostatic forces that help the salt-carrier product better adhere to and coat a food product than salts not adhered to a carrier particle.

A method of coating a confectionery core is provided includes applying a first coating material to the confectionery core. The first coating material being in liquid form. The method also includes tackifying said first coating material on the confectionery core for a selected period of time to achieve a specific level of tackiness for said first coating material. The method further includes applying a second coating material to said first coating material on the confectionery core. The second coating material including a natural plant based particulate.

Disclosed are nut and seed products comprising a coating, wherein the coating comprises a nutritional additive, as well as methods of preparing said coated nut and seed products.

The present invention relates to legumes, and or nuts, and or seeds, and products containing the legumes, nuts and or seeds and to their methods of preparation. More particularly, the present invention is directed towards eliminating plant protein lectins in legumes, and or nuts, and or seeds and to the methods of preparation. Plant lectins are proteins produced by plants as a poisonous defense, and found in many of the foods we eat containing nuts and or legumes and or seeds. Everyday people enjoy eating snacks like; health/nutrition bars, candy bars, soy beans, cashews or even a can of peanuts containing the plant protein lectins. Many of whom are having adverse effects from plant protein lectins.

In the Present Invention, the legumes, and or nuts, and or seeds are processed using methods unused and unknown to one skilled in the art. Resulting in legumes, and or nuts, and or seeds in which the plant protein lectins are removed. And these processed legumes, and or nuts, and or seeds are further processed to accept various coatings used in the trade and directed towards providing multiple edible products containing legumes, and or nuts, and or seeds free of plant protein lectins. Food products including but not limited to, dough, health bars, cereals, yogurt, pastries, ice cream, and the like, as well as pet foods and animal feeds. Another process, the different products are packaged for consumer consumption and/or commercial uses. Also provided are typical methods used for production of these products in the art.