A process for preserving the organoleptic characteristics of coffee-based products and extending their shelf lives, having the steps of roasting the green coffee beans and placing it in a chamber with an inert gas atmosphere, first milling of the roasted coffee beans under inert gas conditions to a size between seventy five (75) and five hundred (500), second milling the previously milled roasted coffee beans under refrigerated conditions to ensure that the size of the bean particles fall between ten (10) and thirty (30) microns and jet milling the first and second milled coffee beans using a closed, or semi-closed, loop of inert gas jet mill to bring the bean particles' size between one tenth (0.1) and less than ten (10) microns resulting in an ultrafine powder. Micro-encapsulating or agglomerating the ultrafine powder with food ingredients, resulting in coated roasted whole coffee granules.

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.

Packaging assembly for the transport of coffee in the form of roasted beans, comprising: at least one impermeable bag, impermeable at least to oxygen and water vapour; said at least one impermeable bag being flexible and sealable in a watertight manner to prevent the introduction of fluids or gases; at least one unidirectional valve sealingly applied to said at least one impermeable bag which only allows gas to escape from the impermeable bag preventing the entry of gas into the impermeable bag, wherein said at least one unidirectional valve makes it possible to achieve an over-pressure inside the impermeable bag variable from 3 to 60 mbar.

A process for preserving the organoleptic characteristics of coffee-based products and extending their shelf lives, comprising the steps of roasting the green coffee beans and placing it in a chamber with an inert gas atmosphere, first milling of the roasted coffee beans under inert gas conditions to a size between seventy five (75) and five hundred (500), second milling the previously milled roasted coffee beans under refrigerated conditions to ensure that the size of the bean particles fall between ten (10) and thirty (30) microns and jet milling the first and second milled coffee beans using a closed, or semi-closed, loop of inert gas jet mill to bring the bean particles' size between one tenth (0.1) and less than ten (10) microns resulting in an ultrafine powder. Micro-encapsulating or agglomerating the ultrafine powder by spraying the ultra-fine powder with food ingredients in a closed or semi-closed loop fluid bed drier (or cooler) within a refrigerated inert gas environment, resulting in coated roasted whole coffee granules.

The present invention relates to a method for producing fermented and vacuum-treated coffee using Kopi Luwak enterobacteria, in which the coffee contains a low concentration of caffeine and a high concentration of γ-aminobutyric acid (GABA). According to the present invention, the fermented and vacuum-treated coffee produced using Kopi Luwak enterobacteria according to the present invention has advantages in that it is produced by rapid fermentation, uniquely smells like caramel, chocolate, grass, etc., unlike unfermented green coffee beans, and has a reduced bitter taste and a deep and heavy taste with an appropriate sour taste.

A coffee degassing device is disclosed and method. The coffee degassing device comprises a coffee bin and a hollow tree within the bin. The hollow tree has an opening in communication with the interior of the coffee bin. The tree provides an exit path for carbon dioxide off-gassing from the coffee. The device may have a diffusion gas supply conduit. The diffusion gas supply conduit is in communication with the hollow tree and is configured to supply nitrogen, or another diffusion gas, to the degassing tree for accelerating the degassing of coffee.

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 invention 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 device and related degassing method for granular or powder material and the use of a blower element, wherein a containment chamber of the granular or powder material and of a gas produced by said material is provided, means for supplying an injection gas with the gas produced by the material comprising the blower element for feeding the injection gas into said chamber for mixing and/or homogenizing the material and the relative gas produced by the material itself with the injection gas.

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.