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.

The invention provides a method of extracting whole coffee fruit, an extract obtained from the method, and method of ameliorating age-related neurodegenerative diseases using said extract. The whole coffee fruit extract may be extracted by water, methanol, ethanol, or acetone and may comprise chlorogenic acid (CA) and procyanidine. The expression levels of p-CREB, BDNF, p-eIF2, BACE-1, A, NLRP3, caspase-1, IL-1 and COX-2 which may relate to age-related neurodegenerative diseases can be modulated.

A coffee degassing method is disclosed. A diffusion gas is supplied into a degassing tree in an bin containing roasted coffee. The degassing tree is in the roasted coffee. Carbon dioxide is diffused from the coffee with the diffusion gas. Carbon dioxide and the diffusion gas are exhausted from the bin. Another method of coffee degassing is disclosed. A diffusion gas is supplied into a degassing chamber in a bin containing roasted coffee. The degassing chamber is in the roasted coffee. Carbon dioxide is diffused from the coffee with the diffusion gas. Carbon dioxide and the nitrogen are exhausted from the bin.

A coffee degassing method is disclosed. A diffusion gas is supplied into a degassing tree in an bin containing roasted coffee. The degassing tree is in the roasted coffee. Carbon dioxide is diffused from the coffee with the diffusion gas. Carbon dioxide and the diffusion gas are exhausted from the bin. Another method of coffee degassing is disclosed. A diffusion gas is supplied into a degassing chamber in a bin containing roasted coffee. The degassing chamber is in the roasted coffee. Carbon dioxide is diffused from the coffee with the diffusion gas. Carbon dioxide and the nitrogen are exhausted from the bin.

A coffee cherry is harvested, preferably in a sub-ripe state, and quick-dried to provide a basis for numerous nutritional products. Such coffee cherries and portions thereof may be particularly characterized by their extremely low concentration of mycotoxins, including various aflatoxins, fumonisins, ochratoxins, and/or vomitoxin (DON, deoxynivalenol).

A coffee cherry is harvested, preferably in a sub-ripe state, and quick-dried to provide a basis for numerous nutritional products. Such coffee cherries and portions thereof may be particularly characterized by their extremely low concentration of mycotoxins, including various aflatoxins, fumonisins, ochratoxins, and/or vomitoxin (DON, deoxynivalenol).

The invention relates to compositions for preparing a beverage, the composition comprises a) a coffee liquor or dried coffee extract ranging between 1-40% w/w; b) a creamer ranging between 1-20% w/w; c) a viscosity modifier ranging between 1-15 w/w %; d) an emulsifier ranging between 0.1 to 1%; and e) a -mannanase ranging between 0.1 to 1% w/w.

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.

Disclosed herein is a method for processing green coffee beans, including: (1) loading unroasted green coffee beans on a mesh-like plate, placing in a container the mesh-like plate having the green coffee beans loaded thereon, introducing water into the bottom of the container so as to be spaced apart from the lower surface of the mesh-like plate, and closing the lid of the container to seal the container; (2) placing the sealed container in a heating cabinet, and then steaming the green coffee beans at low temperature for 10 to 12 days while maintaining the internal temperature of the heating cabinet at 70 to 80 C.; and (3) opening the lid of the container, and then drying the steamed green coffee beans for 4 to 6 days while maintaining the internal temperature of the heating cabinet at 38 to 43 C.