A method and popping machine for popping different types of popcorn kernels is provided, where the different types of popcorn kernels include at least mushroom type popcorn and butterfly type popcorn. The method includes determining a selected one of the different types of popcorn kernels to be popped in a first popping cycle based upon a selection made by an operator, and then retrieving and using a first set of predetermined cooking temperature set points associated with cooking the selected one of the different types of popcorn kernels during performance of the first popping cycle. The cooking temperature set points determine several items which may include when to heat a kettle of the popping machine, when to signal an operator to take action such as loading kernels or dumping popped popcorn, and when to add sugar if a sweetened popped popcorn type is desired.

A method and popping machine for popping different types of popcorn kernels is provided, where the different types of popcorn kernels include at least mushroom type popcorn and butterfly type popcorn. The method includes determining a selected one of the different types of popcorn kernels to be popped in a first popping cycle based upon a selection made by an operator, and then retrieving and using a first set of predetermined cooking temperature set points associated with cooking the selected one of the different types of popcorn kernels during performance of the first popping cycle. The cooking temperature set points determine several items which may include when to heat a kettle of the popping machine, when to signal an operator to take action such as loading kernels or dumping popped popcorn, and when to add sugar if a sweetened popped popcorn type is desired.

The present application relates to a method of cooking cereal grains comprising a first step (S1) of subjecting an initial volume of cereal grains (3) to hot air in a vessel (2) having air temperature between 150 to 250 degrees Centrigrade for between 30 to 180 second; and a second step (S2) of subjecting the expanded cereal grains (3) to boiling water and/or steam. The second step (S2) is performed subsequent to the first step (S1) whilst the expanded cereal grains remain in the vessel (2). A device for cooking cereal grains (3) is also disclosed. The invention increases the overall volume of the cooked cereal grains compared to conventional cooking methods which results in cereal grains having a lower energy density.

A method of cooking a snack food, the method comprising the steps of: a. providing a bed comprising a plurality of particles, wherein the particles are composed of, comprise or consist of a material which is magnetic and/or electroconductive; b. heating the particles in the bed to form a cooking medium in the form of a heated bed of particles, wherein in step b the particles are heated at least partially by electromagnetic induction; c. providing a plurality of snack food precursor elements in the cooking medium thereby to cook the elements to form a plurality of cooked snack food pieces, wherein the heated particles transfer heat into the elements by thermal conduction; and d. separating the plurality of snack food pieces and the cooking medium.

A method of cooking a snack food, the method comprising the steps of: a. providing a bed comprising a plurality of particles, wherein the particles are composed of, comprise or consist of a material which is magnetic and/or electroconductive; b. heating the particles in the bed to form a cooking medium in the form of a heated bed of particles, wherein in step b the particles are heated at least partially by electromagnetic induction; c. providing a plurality of snack food precursor elements in the cooking medium thereby to cook the elements to form a plurality of cooked snack food pieces, wherein the heated particles transfer heat into the elements by thermal conduction; and d. separating the plurality of snack food pieces and the cooking medium.

A method of cooking a snack food, the method comprising the steps of: a. providing a bed comprising a plurality of particles; b. heating and moving the particles in the bed to form a mobile cooking medium in the form of a heated, mobile bed of particles; c. providing a plurality of snack food precursor elements in the cooking medium thereby to cook the snack food precursor elements to form a plurality of cooked snack food pieces, wherein the heated, mobile particles transfer heat into the snack food precursor elements by thermal conduction; and d. separating the plurality of snack food pieces and the cooking medium.

A method of cooking a snack food, the method comprising the steps of: a. providing a bed comprising a plurality of particles; b. heating and moving the particles in the bed to form a mobile cooking medium in the form of a heated, mobile bed of particles; c. providing a plurality of snack food precursor elements in the cooking medium thereby to cook the snack food precursor elements to form a plurality of cooked snack food pieces, wherein the heated, mobile particles transfer heat into the snack food precursor elements by thermal conduction; and d. separating the plurality of snack food pieces and the cooking medium.

A method and popping machine for popping different types of popcorn kernels is provided, where the different types of popcorn kernels include at least mushroom type popcorn and butterfly type popcorn. The method includes determining a selected one of the different types of popcorn kernels to be popped in a first popping cycle based upon a selection made by an operator, and then retrieving and using a first set of predetermined cooking temperature set points associated with cooking the selected one of the different types of popcorn kernels during performance of the first popping cycle. The cooking temperature set points determine several items which may include when to heat a kettle of the popping machine, when to signal an operator to take action such as loading kernels or dumping popped popcorn, and when to add sugar if a sweetened popped popcorn type is desired.

A method and popping machine for popping different types of popcorn kernels is provided, where the different types of popcorn kernels include at least mushroom type popcorn and butterfly type popcorn. The method includes determining a selected one of the different types of popcorn kernels to be popped in a first popping cycle based upon a selection made by an operator, and then retrieving and using a first set of predetermined cooking temperature set points associated with cooking the selected one of the different types of popcorn kernels during performance of the first popping cycle. The cooking temperature set points determine several items which may include when to heat a kettle of the popping machine, when to signal an operator to take action such as loading kernels or dumping popped popcorn, and when to add sugar if a sweetened popped popcorn type is desired.

Popcorn machines having fan assemblies and heat sources are described herein. The fan assemblies and the heat sources can be configured to provide heat to unpopped corn kernels to produce popcorn without the use of cooking oil. The popcorn machines can be configured for commercial use and can be mounted onto support structures that allow operators to rotate the popcorn machines. In some embodiments, the operator rotates the popcorn machine about an axis that extends parallel to the rotational axis of the fan assembly. In these embodiments, rotating the popcorn machine while the fan is rotating does not induce substantial stress on the fan assembly due to the rotational inertia of the fan.