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.

A method of roasting nuts comprises placing water and a mixture of nuts and sugar in a roaster bowl, mixing the water and mixture, heating the roaster bowl during mixing to roast and sugar coat the nuts, covering the roaster bowl with a cover after roasting and sugar coating, adding water to a reservoir disposed within the cover wherein the reservoir includes at least one metering hole, flowing through the metering hole, from the reservoir to the roaster bowl, the water added to the reservoir, glazing the nuts during the flowing of water into the roaster bowl from the reservoir, and removing the cover from the roaster bowl after glazing the nuts. The measured flow of water through the reservoir results in well coated glazed nuts and prevents the formation of a large burst of steam, thus protecting the operator against being scalded during glazing of the roasted nuts, as well as providing other benefits.

A method of roasting nuts comprises placing water and a mixture of nuts and sugar in a roaster bowl, mixing the water and mixture, heating the roaster bowl during mixing to roast and sugar coat the nuts, covering the roaster bowl with a cover after roasting and sugar coating, adding water to a reservoir disposed within the cover wherein the reservoir includes at least one metering hole, flowing through the metering hole, from the reservoir to the roaster bowl, the water added to the reservoir, glazing the nuts during the flowing of water into the roaster bowl from the reservoir, and removing the cover from the roaster bowl after glazing the nuts. The measured flow of water through the reservoir results in well coated glazed nuts and prevents the formation of a large burst of steam, thus protecting the operator against being scalded during glazing of the roasted nuts, as well as providing other benefits.

A bean roasting system includes a roasting drum, an agitator, and a door. The roasting drum has an inside surface extending from a back end to a front end. The agitator has blades mounted to an axial shaft. The axial shaft has an anterior end portion. The door is mounted rotationally relative to the roasting drum and includes a glass plate and a bearing assembly. The glass plate provides visual access to contents inside the roasting drum when the door is closed. The bearing assembly includes an outer housing and an inner bearing. The outer housing is mounted to the glass plate. The inner bearing defines a receiving hole that receives and supports the anterior end portion of the axial shaft when the door closed.

A bean roasting system includes a roasting drum, an agitator, and a door. The roasting drum has an inside surface extending from a back end to a front end. The agitator has blades mounted to an axial shaft. The axial shaft has an anterior end portion. The door is mounted rotationally relative to the roasting drum and includes a glass plate and a bearing assembly. The glass plate provides visual access to contents inside the roasting drum when the door is closed. The bearing assembly includes an outer housing and an inner bearing. The outer housing is mounted to the glass plate. The inner bearing defines a receiving hole that receives and supports the anterior end portion of the axial shaft when the door closed.

The invention relates to an apparatus (1) for drying and/or roasting beans for foodstuff, such as cocoa beans, or parts of beans, such as cocoa nibs, comprising a frame, a drum (2) for receiving the beans or parts of beans rotatably mounted in the frame and at least partially closed at one end (3) and open at the other (4), a shell (5) enveloping the drum (2), a door (7) for closing the open end (4) of the drum (2), a heater (19) for heating the drum (2), and a fan and a valve (26) for maintaining an underpressure in the space (20) between the drum (2) and the shell (5). A seal (30) is located in the clearance between the drum (2) and the shell (5).

The invention relates to an apparatus (1) for drying and/or roasting beans for foodstuff, such as cocoa beans, or parts of beans, such as cocoa nibs, comprising a frame, a drum (2) for receiving the beans or parts of beans rotatably mounted in the frame and at least partially closed at one end (3) and open at the other (4), a shell (5) enveloping the drum (2), a door (7) for closing the open end (4) of the drum (2), a heater (19) for heating the drum (2), and a fan and a valve (26) for maintaining an underpressure in the space (20) between the drum (2) and the shell (5). A seal (30) is located in the clearance between the drum (2) and the shell (5).

A bean roasting apparatus with a stirring barrel body, a receiving structure and an image capturing assembly is provided. The stirring barrel body has an opening. The receiving structure has a bean-through opening and an observation opening. The image capturing assembly has at least one image capturing device and a reflective surface which is disposed in the capturing scope of the at least one image capturing device and is tilted facing the at least one image capturing device and the observation opening. Therefore, the at least one image capturing device can capture an image inside the receiving structure through the reflective surface and the observation opening. Another bean roasting apparatus with an image capturing assembly is provided, wherein at least one image capturing device of the image capturing assembly can capture an image inside the receiving structure through the observation opening directly.

A bean roasting apparatus with a stirring barrel body, a receiving structure and an image capturing assembly is provided. The stirring barrel body has an opening. The receiving structure has a bean-through opening and an observation opening. The image capturing assembly has at least one image capturing device and a reflective surface which is disposed in the capturing scope of the at least one image capturing device and is tilted facing the at least one image capturing device and the observation opening. Therefore, the at least one image capturing device can capture an image inside the receiving structure through the reflective surface and the observation opening. Another bean roasting apparatus with an image capturing assembly is provided, wherein at least one image capturing device of the image capturing assembly can capture an image inside the receiving structure through the observation opening directly.

A bean roasting system includes a roasting drum, an agitator, and a door. The roasting drum has an inside surface extending from a back end to a front end. The agitator has blades mounted to an axial shaft. The axial shaft has an anterior end portion. The door is mounted rotationally relative to the roasting drum and includes a glass plate and a bearing assembly. The glass plate provides visual access to contents inside the roasting drum when the door is closed. The bearing assembly includes an outer housing and an inner bearing. The outer housing is mounted to the glass plate. The inner bearing defines a receiving hole that receives and supports the anterior end portion of the axial shaft when the door closed.