RU2371968C1 - Production method of flavoured coffee drink "kashirskiy" - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention is related to coffee substitutes production technology, namely to technology of production of instant powder for production of flavoured coffee beverages. Anise is extracted by liquid nitrogen with corresponding miscella separation. Girasols\sunflowers are prepared and cut. It is dried in microwave field till residual humidity about 20% at microwave filed power providing warming of girasols/sunflowers inside the bits till temperature 80-90°C during at least an hour. Rosehips are prepared and cut. After that drying of in microwave field till residual humidity about 20% at microwave filed power providing warming of rosehips inside the bits till temperature 80-90° is performed during at least an hour and drying till residual humidity about 5 % by convective method is performed. Barley grains, acorns, nut kernels, fruit bones and soya are fried. Girasols/sunflowers, rosehips, barley grains, acorns, nut kernels, fruit bones and soya are simultaneously put into cryomiller in mass ratio 2:1:6:6 : 1 : 1 : 3, are mixed; obtained mixture is impregnated with separated miscella with simultaneous pressure boost till pressure level of nitrogen saturated vapours at impregnation temperature. Depressurisation till atmosphere pressure is performed along with mixture freezing. It is cryomilled in medium of evolved nitrogen.

EFFECT: method allows to produce flavoured coffee drink out of non-traditional raw materials according to nonwaste technology.

Description

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

A known method of producing a coffee drink "Health", which includes the acceptance, separation, roasting, crushing, grinding and sifting of chicory, barley grain, acorns, kernels of nuts, kernels of fruit seeds and soybeans and mixing chicory, dried ground rosehips, grains of barley, acorns, kernels of nuts, kernels of fruit seeds and soy in a ratio by weight of 2: 1: 6: 6: 1: 1: 3 (Nakhmedov F.G. Technology of coffee products. - M.: Light and food industry, 1984, pp. 107-118 )

The disadvantage of this method is to obtain an insoluble drink with low organoleptic characteristics, the preparation of which is accompanied by the formation of a large amount of waste.

The technical result of the invention is to obtain a new flavored coffee drink from non-traditional raw materials using non-waste technology.

This result is achieved by the fact that the method of producing a flavored coffee beverage involves preparing the recipe components, extracting the anise with liquid nitrogen to separate the corresponding miscella, cutting the sunflower, drying it in the microwave field to a residual moisture content of about 20% with a microwave field power that ensures heating of the sunflower to the inside temperature pieces of 80-90 ° C, for at least 1 hour and frying, cutting rose hips, drying them in the microwave field to a residual moisture content of about 20% with the microwave field power, ensuring heating rose hips to a temperature inside the slices of 80-90 ° C for at least 1 hour and drying to a residual moisture content of about 5% by convective method, roasting barley grains, acorns, walnut kernels, fruit kernel kernels and soybeans, mixing sunflower seeds, fruits rose hips, barley grains, walnut kernels, fruit kernel kernels and soybeans in a weight ratio of 2: 1: 6: 6: 1: 1: 3, impregnating the mixture with separated miscella while increasing pressure, depressurizing to atmospheric pressure while freezing the mixture and her cryo grinding in Wed de liberated nitrogen.

The method is implemented as follows.

Prescription components are prepared according to traditional technology.

Anise is extracted with liquid nitrogen and the miscell is separated according to the known technology (Kasyanov G.I., Kvasenkov O.I., Nematullaev I., Nesterov V.V. Processing of plant materials with liquefied and compressed gases. - M .: AgroNIITEIPP, 1993, p. 7-15).

Prepared sunflower and rose hips are cut and separately dried in the microwave field to a residual moisture content of about 20% for at least 1 hour. Moreover, according to well-known dependencies (Gubiev YK Scientific and practical principles of thermotechnological processes of food production in the electromagnetic field of the microwave. Abstract of the dissertation of the Doctor of Technical Sciences - M .: MTIPP, 1990, pp. 7-11) calculate the power microwave fields, allowing to provide a drying time of each type of raw material for 1 hour and warming up to a temperature inside pieces of sunflower and rose hips of 80 and 90 ° C. The microwave field power for each type of raw material is set to be greater than or equal to the second value and less than or equal to the smaller of the first and third values of the calculated powers.

Drying in the microwave field at temperatures above 90 ° C leads to premature caramelization of sugars. Drying in the microwave at a temperature below 80 ° C and a reduction in drying time of less than 1 hour lead to a deterioration in the recoverability of the target product. Since the increase in the drying time automatically leads to an increase in the specific energy consumption, the maximum value of the drying time for each type of raw material is determined by the Harrington desirability function for the maximum dispersing ability of the target product with minimal specific energy consumption.

Then the sunflower, barley grain, acorns, walnut kernels, fruit kernel kernels and soybeans are fried according to traditional technology, and the rose hips are dried using the convective method to a residual moisture content of about 5%. The sunflower, rosehips, barley grain, acorns, nut kernels, fruit kernel kernels and soybeans are jointly loaded into the cryomill drum in a ratio by weight of 2: 1: 6: 6: 1: 1: 3 and poured for impregnation of the separated 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 miscellaneous aromatic substances.

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.

The product obtained by the described technology is instant powder with dispersing ability, determined by the modified method of VNIMI (Derney J. Production of instant products. - M.: Light and food industry, 1983, pp. 11-12), about 77% . When brewed, a cloudy brown drink forms with a taste and aroma similar to flavored coffee.

Thus, the proposed method allows to obtain a new flavored coffee drink from non-traditional raw materials using non-waste technology.

Claims (1)

A method for producing instant powder to obtain a flavored coffee beverage, including extraction of anise with liquid nitrogen with separation of the corresponding miscella, preparation and cutting of sunflower seeds, its drying in a microwave field to a residual moisture content of about 20% with a microwave field power that ensures heating of sunflower seeds to a temperature inside pieces 80 -90 ° C for at least 1 h and frying, preparing and cutting rose hips, drying them in a microwave field to a residual moisture content of about 20% with a microwave field power that provides warming of the fruit in rose hips to a temperature inside the slices of 80-90 ° C, for at least 1 h and drying to a residual moisture content of about 5% by convective method, roasting barley grains, acorns, kernels of nuts, kernels of fruit seeds and soybeans, joint loading of sunflower, rose hips , grains of barley, acorns, kernels of nuts, kernels of fruit seeds and soybeans in a cryomill in a ratio by weight of 2: 1: 6: 6: 1: 1: 3, mixing, impregnation of the mixture with separated miscella with a simultaneous increase in pressure to a value corresponding to pressure saturated nitrogen vapors temperature of impregnation, depressurization to atmospheric pressure with simultaneous freezing of the mixture and its cryo-grinding in the medium of released nitrogen.