RU2367164C1 - Method of coffee drink production - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: method includes extracting of brown laurel by liquid nitrogen with corresponding miscella separation, mixing fried coffee with fried vegetable filling, impregnation of the obtained mixture with separated miscella with simultaneous pressure boost. Depressurisation till atmosphere pressure with simultaneous freezing of mixture and its cryomilling in medium of evolved nitrogen follow.

EFFECT: method allows for decrease losses of native flavouring coffee substances and obtain flavoured drink.

Description

The invention relates to a technology for the production of beverages using coffee.

A known method of producing a coffee beverage, comprising mixing roasted coffee and roasted vegetable filler, extracting the mixture with non-polar liquefied gas, separating the miscella without depressurizing the mixture, depressurizing the mixture to atmospheric pressure, returning the miscella with a simultaneous increase in pressure and re-relieving pressure to atmospheric (RU 2059382 C1, 1996).

The disadvantages of this method are to obtain a drink with a touch of filler odor and high losses of coffee aromatic substances during explosive grinding of the mixture.

The technical result of the invention is to obtain a flavored coffee drink and reduce the loss of aromatic substances of coffee.

This result is achieved in that the method of producing a coffee beverage involves extracting cinnamon laurel with liquid nitrogen to separate the corresponding miscella, mixing the roasted coffee and the roasted vegetable filler, impregnating the resulting mixture with the separated miscella while increasing the pressure, depressurizing to atmospheric while freezing the mixture and cryo-grinding in the environment of the released nitrogen.

The method is implemented as follows.

Cinnamon laurel is extracted with liquid nitrogen and miscella is separated according to traditional technology (Kasyanov G.I., Kvasenkov O.I., Nematullaev I., Nesterov V.V. Processing of plant materials with liquefied and compressed gases. - M .: AgroNIITE-IPP, 1993 -40 p.).

The roasted coffee and the roasted vegetable filler selected from those traditionally used for these purposes (RU 2059382 C1, 1996) are mixed in the ratio specified by the recipe, loaded into a cryomill drum and poured with a separate miscella. The pressure in the drum automatically rises to a value corresponding to the pressure of saturated nitrogen vapor at the impregnation temperature. Impregnation time is calculated according to the known laws of mass transfer (Kosmodemyansky Yu.V. Processes and apparatuses of food production. A textbook for students of technical schools. - M .: Kolos, 1997, p.135-162). In this case, nitrogen is absorbed and the mixture is saturated with the extractives contained in the miscella, which provide the coffee with an additional aroma.

After the impregnation is completed, the pressure in the drum is vented to atmospheric pressure, which ensures evaporation of nitrogen and freezing of the mixture, and then the mixture is cryo-grinded in the medium of nitrogen released to obtain the target product.

As you know, cryo-grinding coffee in a nitrogen environment minimizes the loss of native aromatic substances of coffee (Douwe E., Proteger Yarome du café // Belg. Bus. Et ind. -1998, v.15, No. 4, p. 70). At the same time, the introduction of flavoring substances in the miscella before grinding the mixture ensures their diffusion into the coffee and the filler, which ensures a reduction in their losses compared to adding to the finished product and giving the filler an appropriate flavor.

Thus, the proposed method allows to obtain a flavored coffee drink and reduce the loss of native aromatic substances of coffee.

Claims (1)

A method of producing a coffee beverage, comprising extracting cinnamon laurel with liquid nitrogen with separation of the corresponding miscella, mixing roasted coffee and roasted vegetable filler, impregnating the resulting mixture with separated miscella with a simultaneous increase in pressure, depressurizing to atmospheric with simultaneous freezing of the mixture and its cryo-grinding in the nitrogen released.