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 method and system for preparing coffee includes roasting green coffee beans, thereby resulting in roasted coffee beans; grinding the roasted coffee beans, thereby resulting ground coffee; and degassing carbon dioxide from the ground coffee.

Apparatus for roasting coffee beans, the apparatus comprising: a casing that defines an internal void, a baffle for dividing said internal void into first and second zones that are in fluid communication with one another; a heater for heating air to temperatures suitable for roasting coffee beans, said heater being located in said second zone; a control system for controlling the apparatus; said control system being located in said first zone; and a fan operable to draw ambient air into said first zone and drive said air from said first zone past said baffle into said second zone for heating by said heater, the arrangement being such that in use said first zone is cooler than said second zone.

A bean roasting system includes a roasting chamber, a blower, a variable diverter and a controller. The roasting chamber, the blower and the variable diverter each is disposed at least partially within a recirculating gas flow path. The blower is configured to provide a flow stream of gas through the recirculating gas flow path. The variable diverter is configured to split the gas flow path into at least two flow paths including a treated flow path and a bypass flow path. The treated flow path includes a series arrangement of a gas heater and a catalytic converter. The variable diverter is configured to control a percentage of a flow stream of gas that is diverted into the bypass flow path. The controller is configured to activate different predetermined operating modes for the bean roasting system by controlling a state of the variable diverter and a state of the heater.

A bean roasting system includes a roasting chamber, a blower, a variable diverter and a controller. The roasting chamber, the blower and the variable diverter each is disposed at least partially within a recirculating gas flow path. The blower is configured to provide a flow stream of gas through the recirculating gas flow path. The variable diverter is configured to split the gas flow path into at least two flow paths including a treated flow path and a bypass flow path. The treated flow path includes a series arrangement of a gas heater and a catalytic converter. The variable diverter is configured to control a percentage of a flow stream of gas that is diverted into the bypass flow path. The controller is configured to activate different predetermined operating modes for the bean roasting system by controlling a state of the variable diverter and a state of the heater.

A container is disclosed for packaging and storing coffee. The container may take the form of a tube with an open top end and a closed bottom end, where the top may be covered with a cap. The coffee inside the tube may be soluble coffee. The tube may be made with a variety of materials such as polylactide or polypropylene.

A container is disclosed for packaging and storing coffee. The container may take the form of a tube with an open top end and a closed bottom end, where the top may be covered with a cap. The coffee inside the tube may be soluble coffee. The tube may be made with a variety of materials such as polylactide or polypropylene.

Methods and/or processes for obtaining coffee extracts and/or processing coffee beans. In certain embodiments, improved methods and/or processes for producing desirable and usable extracts from coffee beans which can be used for instant coffee type powders or liquids, for example. In certain other embodiments, improved coffee extraction techniques which permit or allow retainment or capture of desirable levels of aroma products and/or bio-actives from coffee beans.

Methods and/or processes for obtaining coffee extracts and/or processing coffee beans. In certain embodiments, improved methods and/or processes for producing desirable and usable extracts from coffee beans which can be used for instant coffee type powders or liquids, for example. In certain other embodiments, improved coffee extraction techniques which permit or allow retainment or capture of desirable levels of aroma products and/or bio-actives from coffee beans.