The rancidity of prepackaged candied or sugared nuts, especially, sugar coated almonds, pecans and cashews, is inhibited by packaging the foodstuffs in a GRAS plastic material. This enables the nuts to be exposed to continuous heating or heating and cooling cycles such as within a conventional food warmer or exposure to heating lamps at temperatures up to about 200° F. for extended periods of up to about thirty (30) days while impeding the rancidity of the nut products. Suitable GRAS packaging materials include low-density polypropylene, low-density polyethylene, PET polyester laminates, and the like. The packaging can be in any geometric form. The sugar coated nuts are prepared by coating the nuts with a natural sweetener which may be sugar, corn syrup or like natural sweeteners.

A process for processing animal protein product involves providing a meat product in a raw state having a core temperature of 32-34° F., slicing the meat product into a plurality of meat slices that are 1.0-9.0 mm thick, vacuum sealing a stack of the meat slices within a pouch with the meat slices of the stack stacked together in direct meat-to-meat contact, and cooking the vacuum sealed meat slices of the stack stacked together such that, during the cooking, the cut faces of the meat slices of the stack remain in contact with one another to essentially maintain the size and entire outer surface shape of the stack of meat slices to have the size and entire outer surface shape of the entirety of the meat forming the stack prior to the slicing.

A methodology and product or system configurations are provided which allow food to be directly irradiated for cooking applications which involve the impingement of direct radiant energy on food or comestible items. Cooking vessels or cook-packs are used that are optically transmissive in visible or infrared narrow wavelength bands emitted in suitable narrowband cooking or heating systems.

A methodology and product or system configurations are provided which allow food to be directly irradiated for cooking applications which involve the impingement of direct radiant energy on food or comestible items. Cooking vessels or cook-packs are used that are optically transmissive in visible or infrared narrow wavelength bands emitted in suitable narrowband cooking or heating systems.

Microwavable food containers (10) made at least in part from biodegradable and/or compostable materials and processes for producing these containers are described.

A formed tray for baking and transporting a food product is provided herein. In some embodiments, the formed tray includes two cavities surrounded by a peripheral flange. In addition, the formed tray also may include a rigid bridge extending between the cavities and recessed below the peripheral flange. The peripheral flange of the formed tray may include beveled corners and two concave sections. A pre-cooked food product may be disposed in the cavities and sealed within the formed tray by a flexible film. Also provided herein is a process for baking and sealing a food product within the formed tray to provide a pre-cooked packaged food product that may be stored and transported.

A method for forming a food package product is disclosed. The food package product includes layers and patches of adhesive strategically placed on packaging stock that prevents leakage of liquid products. In an exemplary embodiment, the food package product is microwavable popcorn.

A method for forming a food package product is disclosed. The food package product includes layers and patches of adhesive strategically placed on packaging stock that prevents leakage of liquid products. In an exemplary embodiment, the food package product is microwavable popcorn.

Frozen desserts contained in a microwave active packaging are disclosed. In some embodiments, the microwave active packaging includes a microwave active layer configured to selectively heat the contents of the microwave active packaging. The contents may include a first layer of frozen food, and one or more additional topping layers. When placed into a microwave, the microwave active layer causes the one or more additional topping layers to heat, while the first layer is maintained at or below a freezing temperature. Other embodiments may be described and/or claimed.

Frozen desserts contained in a microwave active packaging are disclosed. In some embodiments, the microwave active packaging includes a microwave active layer configured to selectively heat the contents of the microwave active packaging. The contents may include a first layer of frozen food, and one or more additional topping layers. When placed into a microwave, the microwave active layer causes the one or more additional topping layers to heat, while the first layer is maintained at or below a freezing temperature. Other embodiments may be described and/or claimed.