A method for production of a cocoa powder substitute includes: drying a spent coffee ground material, previously utilized in a coffee brewing process, to a moisture content of less than 10% by mass to produce a dried spent coffee ground material; extracting oil from the dried spent coffee ground material to produce a coffee flour material characterized by a fat content of less than 5% by mass; milling the coffee flour material to an average particle size of less than 250 microns; and flavoring the coffee flour material to produce a cocoa-homologous flavor in the coffee flour material.

A method for production of a cocoa powder substitute includes: drying a spent coffee ground material, previously utilized in a coffee brewing process, to a moisture content of less than 10% by mass to produce a dried spent coffee ground material; extracting oil from the dried spent coffee ground material to produce a coffee flour material characterized by a fat content of less than 5% by mass; milling the coffee flour material to an average particle size of less than 250 microns; and flavoring the coffee flour material to produce a cocoa-homologous flavor in the coffee flour material.

An upward flow extraction method, apparatus, and extract are disclosed. The upward flow extraction method can comprise loading extraction material into an extraction cell having a bottom portion and a top portion; introducing a first aliquot of extraction medium through the bottom portion of the extraction cell; expelling gas from the extraction cell through the top portion of the extraction cell; closing the top portion of the extraction cell and increasing the pressure in the extraction cell as extraction medium flows into the bottom portion of the extraction cell; stopping the flow of extraction medium into the extraction cell; steeping the extraction material in the extraction medium under pressure to produce an extract; and introducing a second aliquot of extraction medium through the bottom portion of the extraction cell to push extract through top portion of the extraction cell.

Described are methods and/or techniques for the production of coffee fruit extracts on the basis of coffee cherries, which enable improved extraction and yield of usable aromatic constituents and nutritionally beneficial components (incl. polyphenols, antioxidants, and/or sugars) of the coffee fruit. Specifically, the invention relates to a coffee cherry processing method, having the steps of: (1) adding water to coffee cherries or to any of pulp or green, unroasted coffee beans obtained from the coffee cherries to form a suspension; (2) wet grinding said suspension in multiple steps to an average particle size of 100μηη or less; and (3) subjecting said suspension to one or more separation and/or processing steps having at least the separation of the water phase to obtain at least one coffee cherry extract selected from coffee cherry aroma, coffee cherry oil, coffee cherry powder, coffee cherry juice, coffee pulp aroma, coffee pulp powder, coffee pulp juice, coffee aroma and green or roasted coffee powder.

Described are methods and/or techniques for the production of coffee fruit extracts on the basis of coffee cherries, which enable improved extraction and yield of usable aromatic constituents and nutritionally beneficial components (incl. polyphenols, antioxidants, and/or sugars) of the coffee fruit. Specifically, the invention relates to a coffee cherry processing method, having the steps of: (1) adding water to coffee cherries or to any of pulp or green, unroasted coffee beans obtained from the coffee cherries to form a suspension; (2) wet grinding said suspension in multiple steps to an average particle size of 100μηη or less; and (3) subjecting said suspension to one or more separation and/or processing steps having at least the separation of the water phase to obtain at least one coffee cherry extract selected from coffee cherry aroma, coffee cherry oil, coffee cherry powder, coffee cherry juice, coffee pulp aroma, coffee pulp powder, coffee pulp juice, coffee aroma and green or roasted coffee powder.

An upward flow extraction method, apparatus, and extract are disclosed. The upward flow extraction method can comprise loading extraction material into an extraction cell having a bottom portion and a top portion; introducing a first aliquot of extraction medium through the bottom portion of the extraction cell; expelling gas from the extraction cell through the top portion of the extraction cell; closing the top portion of the extraction cell and increasing the pressure in the extraction cell as extraction medium flows into the bottom portion of the extraction cell; stopping the flow of extraction medium into the extraction cell; steeping the extraction material in the extraction medium under pressure to produce an extract; and introducing a second aliquot of extraction medium through the bottom portion of the extraction cell to push extract through top portion of the extraction cell.

A method designed to clarify the coffee oil contained in coffee grounds or in whole and/or damaged coffee beans. Said objective is achieved by way of a method that starts with inoculation of the coffee grounds or coffee beans with macromycetes, especially with white rot fungi, continuing with an incubation step that allows complete population of the coffee grounds or coffee beans by the fungal mycelium to be achieved, and finishing with steps of drying and extracting the coffee oil. The method disclosed allows colourless or pale yellow coffee oil to be produced, favouring the use thereof in cosmetic and food products, amongst others. International patent classification: Methods for preparing or isolating a composition containing fungal microorganisms (C12N 1/14) Technological sector: Chemical processes

Disclosed herein are small molecule compounds that can be used to increase the overall quality of a coffee beverage. The flavor enhancing compounds can be combined with coffee at any stage of its processing to increase the cup score of a coffee beverage. In some embodiments, the flavor enhancing compounds include one or more caffeic ester compounds, for instance caffeic acid esterified with a cyclitol or related compound.

Systems and methods for submerging coffee within water in a chamber directly below a filter, creating a vacuum within the chamber, removing carbon dioxide through the filter while preventing the formation of carbonic acid, and creating another vacuum within the chamber.

Described are methods and/or techniques for the production of coffee fruit extracts on the basis of coffee cherries, which enable improved extraction and yield of usable aromatic constituents and nutritionally beneficial components (incl. polyphenols, antioxidants, and/or sugars) of the coffee fruit. Specifically, the invention relates to a coffee cherry processing method, comprising the steps of: (1) adding water to coffee cherries or to any of pulp or green, unroasted coffee beans obtained from the coffee cherries to form a suspension; (2) wet grinding said suspension in multiple steps to an average particle size of 100μηη or less; and (3) subjecting said suspension to one or more separation and/or processing steps comprising at least the separation of the water phase to obtain at least one coffee cherry extract selected from coffee cherry aroma, coffee cherry oil, coffee cherry powder, coffee cherry juice, coffee pulp aroma, coffee pulp powder, coffee pulp juice, coffee aroma and green or roasted coffee powder.