A method of brewing a flash brewed coffee concentrate includes flash brewing ground coffee to brew a hot coffee extract and mixing the hot coffee extract with a frozen concentrated coffee extract to chill the hot coffee extract to a temperature less than 130° F. while increasing the concentration of the hot coffee extract to form the flash brewed coffee concentrate.

A bean roasting system includes a roasting subsystem and an air handling subsystem. The roasting subsystem includes a housing, an agitator actuator, an agitator, a bearing and a door. The housing has an inner surface defining an inner chamber for holding a batch of beans during a thermal roasting process. The agitator is coupled to the agitator actuator and includes a central shaft and a blade set mounted to the central shaft. The bearing supports the central shaft and is configured to prevent the blade set from contacting the inner surface of the housing. The door has a transparent window to allow viewing of the thermal roasting process. The air handling system is coupled to the roasting subsystem, includes a blower and heater, and is configured to circulate heated air through the roasting subsystem during the thermal roasting process.

A bean roasting system includes a roasting subsystem and an air handling subsystem. The roasting subsystem includes a housing, an agitator actuator, an agitator, a bearing and a door. The housing has an inner surface defining an inner chamber for holding a batch of beans during a thermal roasting process. The agitator is coupled to the agitator actuator and includes a central shaft and a blade set mounted to the central shaft. The bearing supports the central shaft and is configured to prevent the blade set from contacting the inner surface of the housing. The door has a transparent window to allow viewing of the thermal roasting process. The air handling system is coupled to the roasting subsystem, includes a blower and heater, and is configured to circulate heated air through the roasting subsystem during the thermal roasting process.

A fluid bed coffee roasting system is disclosed and configured for roasting batches of coffee beans of varying sizes. In at least one embodiment, the system provides a roasting unit configured for roasting a volume of coffee beans, a chaff collection unit positioned and configured for drawing off and capturing any loose chaff released by the coffee beans within the roasting unit, and a cooling unit positioned and configured for receiving and cooling the coffee beans after they are removed from the roasting unit.

A method of brewing coffee includes the following steps:—requesting a user to select a coffee-based beverage on an input device coupled to a coffee brewing apparatus; selecting a suitable water recipe from a database comprising a plurality of water recipes suited for brewing coffee, wherein the selected water recipe is suited to the selected coffee-based beverage, wherein the water recipe defines a set mineral concentration of brewing water to be prepared; requesting a water preparation unit to prepare a brewing water based on the water recipe, wherein the water preparation unit is adapted to mineralize the brewing water according to the set mineral concentration of the water recipe; preparing brewing water based on the water recipe; and brewing the coffee-based beverage with the brewing water prepared according to the water recipe.

A method of brewing coffee includes the following steps:—requesting a user to select a coffee-based beverage on an input device coupled to a coffee brewing apparatus; selecting a suitable water recipe from a database comprising a plurality of water recipes suited for brewing coffee, wherein the selected water recipe is suited to the selected coffee-based beverage, wherein the water recipe defines a set mineral concentration of brewing water to be prepared; requesting a water preparation unit to prepare a brewing water based on the water recipe, wherein the water preparation unit is adapted to mineralize the brewing water according to the set mineral concentration of the water recipe; preparing brewing water based on the water recipe; and brewing the coffee-based beverage with the brewing water prepared according to the water recipe.

Aspects of the present disclosure generally relate to systems and methods for processing biomaterials in the absence of atmospheric oxygen and products resulting from such processes. Such processing techniques may dramatically increase the shelf-life expectancies of roasted and milled biomaterial products when the roasted and milled biomaterial products are not exposed to oxygen during processing.

Aspects of the present disclosure generally relate to systems and methods for processing biomaterials in the absence of atmospheric oxygen and products resulting from such processes. Such processing techniques may dramatically increase the shelf-life expectancies of roasted and milled biomaterial products when the roasted and milled biomaterial products are not exposed to oxygen during processing.

A coffee roasting system is provided. The system includes a roaster mechanism with a container for accommodating coffee beans. The system also includes a heat source configured to produce heat. The system further includes a heat transfer mechanism comprising a first interface which can be coupled with the heat source and a second interface which can be coupled with the roaster mechanism. The second interface is configured to allow the heat transfer mechanism to be disengaged from the roaster mechanism. In addition, the system includes a control module coupled to the heat source and roaster mechanism and configured to control the heat source and roaster mechanism.

A process for producing decaffeinated green coffee beans, decaffeinated roasted coffee beans or preparations produced therefrom is described, wherein one process step comprises the PEF (pulsed electric field) treatment of (optionally presoaked) green coffee beans. Also described is a decaffeinated green coffee bean, a decaffeinated roasted coffee bean, and a preparation produced therefrom, and also the use of a PEF device for the treatment of (optionally presoaked) green coffee beans. A system for decaffeinating green coffee beans is additionally described.