A cooking system is disclosed. The cooking system comprises a controller in communication with a heating apparatus and a user interface. The controller is configured to access a cooking model for a selected food. The cooking model comprises a first layer indicating a first heat absorption relationship and a second layer indicating a second heat absorption relationship. The controller is further configured to receive a first cooking parameter from the user interface for the first layer and a second cooking parameter from the user interface for the second layer. The controller may further calculate a heat exchange model based on the first heat absorption relationship and the second heat absorption relationship.

A cooking system is disclosed. The cooking system comprises a controller in communication with a heating apparatus and a user interface. The controller is configured to access a cooking model for a selected food. The cooking model comprises a first layer indicating a first heat absorption relationship and a second layer indicating a second heat absorption relationship. The controller is further configured to receive a first cooking parameter from the user interface for the first layer and a second cooking parameter from the user interface for the second layer. The controller may further calculate a heat exchange model based on the first heat absorption relationship and the second heat absorption relationship.

According to one embodiment, a rack includes a pair of spaced apart inverted U shaped brackets. Each bracket has a top portion coupled in-between a rear leg and a front leg and forming a gap in-between the rear leg and the front leg. The top portion, the rear leg, and front leg of each bracket are disposed in a first plane. The rack further includes one or more horizontal coupling members coupled in-between the pair of brackets. The horizontal coupling members and the front leg of each bracket are disposed in a second plane that is orthogonal to the first plane. The rack also includes one or more first horizontal supporting members coupled to and extending outward from a first bracket of the pair of brackets. The first horizontal supporting members are disposed in a third plane that is orthogonal to the first and second planes.

According to one embodiment, a rack includes a pair of spaced apart inverted U shaped brackets. Each bracket has a top portion coupled in-between a rear leg and a front leg and forming a gap in-between the rear leg and the front leg. The top portion, the rear leg, and front leg of each bracket are disposed in a first plane. The rack further includes one or more horizontal coupling members coupled in-between the pair of brackets. The horizontal coupling members and the front leg of each bracket are disposed in a second plane that is orthogonal to the first plane. The rack also includes one or more first horizontal supporting members coupled to and extending outward from a first bracket of the pair of brackets. The first horizontal supporting members are disposed in a third plane that is orthogonal to the first and second planes.

A cooking apparatus having a cooking chamber, a cooking drawer, a solid fuel support drawer, gas burners, and an ash drawer. One of the cassettes positionable in the cooking drawer can be a belt conveyor which can transport food between end doors of the cooking chamber. A front door of the chamber, when open, allows for the cooking drawer with a partially-cooked food item to be removed and moved to another location for inspection/manipulation of the food item, and then returned to the cooking chamber. Infrared burners on the ceiling of the cooking chamber are directed down to the cooking drawer. Hot exhaust gases in the cooking chamber pass through the housing to a top area for food cooking/warming. A flickering flame assembly creates flickering flames in the back of the chamber which are visible from both the front and the back of the cooking apparatus.

A cooking apparatus having a cooking chamber, a cooking drawer, a solid fuel support drawer, gas burners, and an ash drawer. One of the cassettes positionable in the cooking drawer can be a belt conveyor which can transport food between end doors of the cooking chamber. A front door of the chamber, when open, allows for the cooking drawer with a partially-cooked food item to be removed and moved to another location for inspection/manipulation of the food item, and then returned to the cooking chamber. Infrared burners on the ceiling of the cooking chamber are directed down to the cooking drawer. Hot exhaust gases in the cooking chamber pass through the housing to a top area for food cooking/warming. A flickering flame assembly creates flickering flames in the back of the chamber which are visible from both the front and the back of the cooking apparatus.

A heater with a visual flame display is described. The heater may include a top portion and a base, separated by concentric cylinders. The innermost cylinder houses a flame element, which may be spun into a vortex. The cylinders may be constructed from transparent materials such that the flame element is visible to an observer. The base provides heat at or near ground level for efficient heat distribution.

A heater with a visual flame display is described. The heater may include a top portion and a base, separated by concentric cylinders. The innermost cylinder houses a flame element, which may be spun into a vortex. The cylinders may be constructed from transparent materials such that the flame element is visible to an observer. The base provides heat at or near ground level for efficient heat distribution.

The present disclosure is directed to a multi-heat source apparatus. The multi heat source may include a fire pit and is configured to provide ambient heating with both convection heat transfer and radiation heat transfer. The multi-heat source apparatus comprises an infrared emitter for generating infrared radiation. The multi-heat source apparatus comprises a shielding member between a heat source for the convection heat transfer and another heat source for radiation heat transfer.

The present disclosure is directed to a multi-heat source apparatus. The multi heat source may include a fire pit and is configured to provide ambient heating with both convection heat transfer and radiation heat transfer. The multi-heat source apparatus comprises an infrared emitter for generating infrared radiation. The multi-heat source apparatus comprises a shielding member between a heat source for the convection heat transfer and another heat source for radiation heat transfer.