RU2363203C1 - Production method of reconstituted tea - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: nasturtium leaves are sequentially extracted by non-polar liquified gas and drinking water with obtaining of corresponding extracts. Tea refuses are mixed with liquid carbon dioxide. They are extracted and minced along with periodic depressurisation of extraction mixture below carbon dioxide vapour pressure at extraction temperature. Miscella and extraction cake are separated. The latter is dissolved in water solution of edible acid. Calciferous or magnesium salt of carbonic acid and water extract of nasturtium leaves is added to suspension. Then it is formed, dried till residual humidity 13-15%, cut, impregnated with gas-liquid extract of nasturtium leaves and previously separated miscella with simultaneous pressure boost. After that depressurisation till atmosphere pressure with simultaneous freezing of absorbed carbon dioxide and its subliming with obtaining of end product are performed.

EFFECT: production of reconstituted tea out of tea production refuses with complete usage of mentioned refuses.

Description

The invention relates to a technology for the integrated processing of tea raw materials.

Known methods for the integrated processing of tea, involving the collection of waste products in the form of petioles and tea dust, their extraction and subsequent introduction of tea extracts into various food products (Chakhova E.I., Kasyanov G.I. Integrated technology for processing tea raw materials - Krasnodar: KNIIHP 2003, p. 107-140).

When implementing well-known technologies, meal remaining after extraction of the main production waste remains unused.

The technical result of the invention is the complete disposal of tea-making waste.

This result is achieved by the fact that the method of manufacturing reconstituted tea involves the sequential extraction of nasturtium leaves with large non-polar liquefied gas and drinking water to obtain the corresponding extracts, mixing tea waste with liquid carbon dioxide, extracting and grinding it under periodic pressure relief in the extraction mixture below the saturated vapor pressure carbon dioxide at the extraction temperature, separation of miscella and meal, suspension of meal in an aqueous solution food acid, the introduction of a suspension of calcium or magnesium salt of carbonic acid and an aqueous extract of nasturtium leaves large, molding, drying to a residual moisture content of 13-15%, cutting, impregnation of a large and separated miscella with a gas-liquid extract of nasturtium leaves with a simultaneous increase in pressure, depressurization to atmospheric with simultaneous freezing of the absorbed carbon dioxide and its sublimation to obtain the residue of the target product.

The method is implemented as follows.

Large nasturtium leaves are sequentially extracted with non-polar liquefied gas and drinking water to obtain the corresponding extracts by any known technology.

Tea-making wastes are prepared by removing impurities from it and mixed with liquid carbon dioxide. In the obtained extraction mixture, the pressure is periodically depressurized to a value below the pressure of the saturated vapor of carbon dioxide at the extraction temperature under traditional process parameters (RU 2255788 C1, 2005). As you know, this leads to intensive destruction of the extracted raw materials and the release of its cellular contents into the extract (Zhuravskaya-Skalova D.V., Kvasenkov OI. New technology for the extraction of biological raw materials // Collection of materials of the scientific-practical conference "Integration of fundamental and applied research - the basis for the development of modern agricultural and food technologies "- Uglich: RAAS, 2007, p.111-112). After completion of the extraction and grinding of raw materials, miscella and meal are separated by traditional methods. The resulting meal is suspended in an aqueous solution of acid classified as food in accordance with SanPiN 2,3.2.1293-03. The acid concentration is chosen according to well-known recommendations to ensure the hydrolysis of protopectins (Donchenko L.V. Technology of pectin and pectin products. A manual for university students - M .: DeLi, 2000, p. 32-40). The phase ratio is chosen to ensure the fluidity of the suspension. The suspension time and, if necessary, the suspension is set in such a way as to ensure hydrolysis of tea protopectins, calculated according to well-known patterns (I. Ilyina, Scientific basis for the technology of modified pectins - Krasnodar: SKZNIISiV, 2001, p. 88-156). Then, the calcium or magnesium salt of carbonic acid and a large extract of nasturtium leaves are introduced into the suspension. Alkaline earth metal ions neutralize the food acid used and crosslink the free carboxy groups of pectin substances, increasing the viscosity of the suspension. The resulting free carbonic acid decomposes into carbon dioxide and water. The suspension thus treated is formed into a sheet, dried to a residual moisture content of 13-15%, which provides the plasticity necessary for the subsequent processing, and cut by analogy with natural tea. The chopped material is impregnated with a gas-liquid extract of nasturtium leaves from a large and previously separated CO ₂ micelle of tea. Impregnation time is determined by the known laws of mass transfer (Kosmodemyansky Yu.V. Processes and apparatuses of food production. Textbook for students of technical schools - M .: Kolos, 1997, p.135-162). As a rule, it does not exceed 15 s. At the same time, carbon dioxide is absorbed and the material is saturated with aromatic substances of large nasturtium leaves and tea, and the pressure automatically rises to a value corresponding to the pressure of saturated carbon dioxide vapors at the impregnation temperature. Then the pressure is released to atmospheric pressure while freezing the absorbed carbon dioxide, after which it is sublimated by known methods and removed to obtain the desired product in the residue. It consists of granules of irregular shape with a developed porous structure, which, when brewed, make it possible to obtain a drink with the organoleptic properties of flavored tea.

Thus, the proposed method allows to obtain from the waste of tea making a new product in the form of reduced flavored tea with the most complete use of the mentioned waste.

Claims (1)

A method of manufacturing reconstituted tea, which involves sequential extraction of nasturtium leaves with large non-polar liquefied gas and drinking water to obtain the corresponding extracts, mixing tea waste with liquid carbon dioxide, extracting and grinding it under periodic pressure relief in the extraction mixture below the pressure of saturated carbon dioxide vapor at the extraction temperature , separation of miscella and meal, suspension of meal in an aqueous solution of food acid, introduction in suspension a calcium or magnesium salt of carbonic acid and an aqueous extract of nasturtium leaves large, molding, drying to a residual moisture content of 13-15%, cutting, impregnating a large and separated miscella with a gas-liquid extract of nasturtium leaves with a simultaneous increase in pressure, depressurizing to atmospheric while freezing absorbed dioxide carbon and its sublimation to obtain the residue of the target product.