A roaster and method for roasting coffee beans is provided, and includes a drum that extends axially along a rotational axis, and a motor that rotates the drum about the rotational axis. A bean inlet port is located adjacent to a first end of the drum, and receives coffee beans to be introduced to the drum for roasting. A heater generates a heated gas by elevating a temperature of a gas to at least a roasting temperature, and a nozzle directs the heated gas generally toward the coffee beans within the drum while the drum is rotated by the motor. A collection bin adjacent to a second end of the drum collects the coffee beans exiting the drum after the coffee beans are roasted by the heated gas while traveling through the drum between the inlet port and the collection bin.

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.

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.

A cooking appliance and a roasting assembly configured to be removably mounted within such cooking appliance are provided. The roasting assembly includes a pan defining an internal volume. The pan is configured to be rotatably mounted on a floor of a cooking chamber of the cooking appliance. The roasting assembly also includes a stirrer rod positioned within the internal volume of the pan. The stirrer rod is configured to be coupled to a rotating hub of the cooking appliance whereby the stirrer rod rotates with the rotating hub. The pan rotates at a first speed and the stirrer rod rotates at a second speed different from the first speed.

A cooking appliance and a roasting assembly configured to be removably mounted within such cooking appliance are provided. The roasting assembly includes a pan defining an internal volume. The pan is configured to be rotatably mounted on a floor of a cooking chamber of the cooking appliance. The roasting assembly also includes a stirrer rod positioned within the internal volume of the pan. The stirrer rod is configured to be coupled to a rotating hub of the cooking appliance whereby the stirrer rod rotates with the rotating hub. The pan rotates at a first speed and the stirrer rod rotates at a second speed different from the first speed.

A coffee bean roaster includes a machine body, a roasting drum, a heating device, and a fan module. The machine body includes a casing, a receiving trough, a container, and a partition assembly disposed inside the casing and partitioning an inside of the casing into a first chamber, a second chamber, and a third chamber. The receiving trough is disposed outside the casing and communicates with the first chamber. The container disposed in the receiving trough has mesh holes communicating with the receiving trough. The roasting drum is rotatably disposed inside the second chamber of the casing. One side of the roasting drum has through holes communicating with the third chamber. The heating device is disposed inside the second chamber for heating the roasting drum. The fan module is attached to the casing for pumping air to the outside of the casing through the first chamber and the third chamber.

A coffee bean roaster includes a machine body, a roasting drum, a heating device, and a fan module. The machine body includes a casing, a receiving trough, a container, and a partition assembly disposed inside the casing and partitioning an inside of the casing into a first chamber, a second chamber, and a third chamber. The receiving trough is disposed outside the casing and communicates with the first chamber. The container disposed in the receiving trough has mesh holes communicating with the receiving trough. The roasting drum is rotatably disposed inside the second chamber of the casing. One side of the roasting drum has through holes communicating with the third chamber. The heating device is disposed inside the second chamber for heating the roasting drum. The fan module is attached to the casing for pumping air to the outside of the casing through the first chamber and the third chamber.

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.

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.

A system for heating an object includes an electromagnetic radiation source emitting electromagnetic radiation, a first stage, a second stage, and a third stage. The object is placed into the first stage where it is struck by electromagnetic radiation to thereby heat the object. The object is then transported to the second stage which has a cooling fluid flowing therein. The object moves through the second stage to cool down subsequent to being struck by the electromagnetic radiation. Air and any particulate matter produced by the electromagnetic radiation striking the object in the first stage is transported to the third stage. In the third stage, electromagnetic radiation is used to incinerate some of the particulate matter. The air in the third stage is vented out of the third stage through a filter.