MD1181Z - Continuous-action plant for distillation of wines with a high content of sulphurous anhydride - Google Patents

Abstract

The invention relates to the wine industry, namely to continuous-action plants for distillation of wines with a high content of sulphurous anhydride.The plant, according to the invention, comprises, connected to each other by pipelines, a distillation column (1), a purification column (9), a wine preheater (8), a primary reflux condenser (3) for wine distillate, a reflux condenser (11) for ester-aldehyde fraction, a refrigerator (13) with a lantern (14) for wine distillate and a refrigerator (12) with a lantern (15) for ester-aldehyde fraction. The plant also comprises a concentration column (2), connected to the primary reflux condenser (3) and to the purification (9) and distillation (1) columns; a separator (4), connected to the distillation column (1) and to the primary reflux condenser (3), which is connected to a secondary reflux condenser (5) for wine distillate, connected to a condenser (6), which, in its turn, is connected to the purification column 9); a desulfitator (10), connected to the distillation (1) and concentration (2) columns.

Description

The invention relates to the wine industry, namely to continuous operation distillation installations for wines with high sulfur dioxide content.

A device is known for removing sulfur dioxide from wine distillates containing sulfur dioxide by using calcium hydroxide in the form of slaked lime or milk of lime [1].

The disadvantage of this solution is that when removing sulfur dioxide from the wine distillate, it, being chemically very aggressive, corrodes the technological equipment.

A continuous operation distillation plant for wines with a high sulfur dioxide content is known, which contains, connected together by pipes, a distillation column with 17 plates, a purification column, a wine preheater, a dephlegmator for the wine distillate, a dephlegmator for the esteraldehyde fraction, a wine heater, a lantern condenser for the wine distillate and a lantern condenser for the esteraldehyde fraction.

The installation operates in the following way.

The wine, being at room temperature, is directed by a pump into the preheater, where it is partially heated by the hot vinasse, which comes out of the distillation column, after which the wine is directed into the heater, where it is heated with hot vapors and through the separator it enters the purification column, where the slightly volatile vapors from the wine, rich in aldehydes and esters, are separated, which, rising up, enter the dephlegmator for the esteraldehyde fraction, then into the refrigerant for the esteraldehyde fraction and are collected as the esteraldehyde fraction. The liquid wine descends onto the plates of the purification column, thus entering the distillation column, where, in the opposite direction, hot water vapor moves, which heats the wine, causing the formation of hydroalcoholic vapors, which move upwards onto the plates of the distillation column and pass into the purification column, where they are separated a second time from the slightly volatile components (esters, aldehydes) and enter the dephlegmator for the wine distillate, where the phlegm formed passes into the wine distillate condenser, is cooled and collected as wine distillate, and the remaining matter is directed to one of the upper plates of the distillation column. The liquid, separated from the ethyl alcohol, in the form of vinasse, is eliminated through the bottom of the distillation column and enters the preheater, where it heats the wine, which is to be distilled, to room temperature [2].

The disadvantages of this installation are that it does not allow the distillation of wines with a relatively high content of sulfur dioxide (SO2), at the same time, the sulfur dioxide present in the wine, during the wine distillation process, being slightly volatile, is eliminated together with the hydroalcoholic vapors and enters the esteraldehyde fraction and the wine distillate, thus exceeding the maximum allowable concentration of sulfur dioxide in the wine distillate, which reduces the quality of the finished products.

The technical problem that the invention solves is the creation of a continuous flow distillation installation for wines, which would allow the qualitative removal of SO2 from hydroalcoholic vapors, obtaining a qualitative wine distillate.

The continuous operation distillation plant for wines with high sulfur dioxide content, according to the invention, eliminates the above-mentioned disadvantages by containing, connected together by pipes, a distillation column, a purification column, a wine preheater, a primary dephlegmator for the wine distillate, a dephlegmator for the esteraldehyde fraction, a lantern condenser for the wine distillate and a lantern condenser for the esteraldehyde fraction. The plant also contains a concentration column, connected to the primary dephlegmator, to the purification column and to the distillation column by a discharge pipe into the concentration column of the hydroalcoholic vapors with SO2 content, equipped with a valve; a separator, connected to the distillation column and to the primary dephlegmator, which is connected to a secondary dephlegmator for the wine distillate, connected to a condenser, which, in turn, is connected to the purification column; a desulphite, which is connected to the distillation column through a discharge pipe into the desulphite of the hydroalcoholic vapors containing SO2, equipped with a valve. The desulphite is connected to the concentration column through a discharge pipe into the latter of the hydroalcoholic vapors cleaned of SO2, equipped with a valve.

The particularities of the invention allow the removal of sulfurous anhydride from hydroalcoholic vapors through the desulfitator filled with an aqueous solution of milk of lime, which captures the SO2 vapors after bubbling the hydroalcoholic vapors through the aqueous solution of milk of lime with the formation of calcium sulfite precipitate, and the hydroalcoholic vapors cleaned of SO2 are directed to the purification column, thus protecting the installation from the corrosive action of SO2 and reducing its concentration in the wine distillate below the permissible standards.

The technical result of the invention consists in obtaining a wine distillate cleaned of sulfurous anhydride by qualitatively removing it from the hydroalcoholic vapors with the obtaining of qualitative wine distillates.

The invention is explained by the drawing in the figure, which presents the scheme of the continuous operation distillation plant for wines with high sulfur dioxide content.

The proposed installation (see figure) contains the distillation column 1 with 28 plates, which is separated from the concentration column 2 and is connected, at the top, to the separator 4 and to the desulphite 10 through the discharge pipe into the latter of the hydroalcoholic vapors containing SO2, equipped with the valve 17. In the middle, the distillation column 1 is connected to the purification column 9, and at the bottom it is connected to the wine preheater 8 through the water valve 7, at the same time, at the bottom of the distillation column 1 a pipe is fixed for the discharge of the heated water vapors into it. The concentration column 2 is connected at the top to the primary dephlegmator 3 and to the purification column 9, and at the bottom to the desulphite 10 through the discharge pipe into the concentration column 2 of the hydroalcoholic vapors cleaned of SO2, equipped with valve 16. The primary dephlegmator 3 is connected to the secondary dephlegmator 5 for the wine distillate, connected to the condenser 6, which, in turn, is connected to the purification column 9. The preheater 8 is connected by a pipe to the primary dephlegmator 3, and the latter, in turn, is connected to the separator 4 and the purification column 9. The column 9 is connected at the top to the dephlegmator 11 for the esteraldehyde fraction, which is connected to the refrigerant 12 for the esteraldehyde fraction. Also at the top, the purification column 9 is connected through the lantern 15 to the container for the esteraldehyde fraction, and in the middle the purification column 9 is connected through a pipe to the refrigerant 13 for the wine distillate. Also, at the bottom, through a pipe, the purification column 9 is connected to the middle of the distillation column 1. The refrigerant 13 is connected through the lantern 14 to the container for the wine distillate. The concentration column 2 is connected to the distillation column 1 through the discharge pipe into the concentration column 2 of the hydroalcoholic vapors containing SO2, equipped with the valve 18.

The continuous distillation plant for wines with high sulfur dioxide content operates in the following way.

Valve 18 is closed, valves 16 and 17 are opened. The wine with a high SO2 content, subjected to distillation, is introduced into the wine preheater 8, where it is heated by the hot vinasse, which comes out of the distillation column 1 to a temperature of 50°C, then it enters the primary dephlegmator 3, where it is additionally heated by hydroalcoholic vapors coming out of the concentration column 2 to a temperature of 75…80°C, from where the heated wine is directed into the separator 4, where the separation of the liquid from the gases is carried out, namely, the liquid returns to one of the upper trays of the distillation column 1, and the gases through the pipes are eliminated into the atmosphere. The wine in distillation column 1 moves downwards on the plates, and in the opposite direction the hot water vapor moves, which additionally heats the wine, causing the formation of hydroalcoholic vapors, which move upwards on the plates, concentrating with alcohol and other volatile components, from where they pass into desulphite remover 10, where they are subjected to bubbling through the aqueous solution of milk of lime. Sulfurous anhydride, present in the hydroalcoholic vapors, reacts with calcium hydroxide with the formation of calcium sulfite precipitate, and the remaining vapors are directed to the bottom of the concentration column 2, where they are separated into the slightly volatile fraction (esters, aldehydes), which rises up and passes into the primary dephlegmator 3, and the less volatile fraction (wine distillate) is directed to the purification column 9. In the primary dephlegmator 3, the separation of the phlegm from the critical liquid is carried out, namely, the phlegm is directed to the secondary dephlegmator 5, where a deeper separation of the vapors is carried out, which are partially directed to the condenser 6. Then, in the condenser 6, the vapors are partially liquefied and separated, the unliquefied gases are eliminated into the atmosphere, and the liquid formed is directed to one of the upper trays of the purification column. 9, in which the liquid moves downwards, and in the opposite direction the heated water vapor moves, causing the formation of hydroalcoholic vapors, which rise upwards, thus separating the esteraldehyde fraction, which is directed into the secondary dephlegmator 11, and the wine distillate is directed into the condenser 13, where it cools and through the lantern 14 passes into the container for the wine distillate. The esteraldehyde fraction in the dephlegmator 11 is separated in the form of phlegm, directed into the condenser 12, from where in the form of liquid through the lantern 15 passes into the container for the esteraldehyde fraction. The critical liquid in the dephlegmator 11 is directed into the lantern 15.

The proposed installation (see figure) can also be used for the distillation of wines without SO2 content. In this case, the desulphite 10 will be disconnected by closing valves 16 and 17, and valve 18 will be opened. The distillation process will proceed exactly as in a classic direct distillation installation with continuous operation.

1. MD 3014 F1 2006.03.31

2. Maltabar И. M., Fertman G. И. Cognac technology. Moscow: Food industry, 1971, p. 107-109

Claims (1)

Continuously operating distillation plant for wines with a high sulfur dioxide content, which contains, connected to each other by pipes, a distillation column (1), a purification column (9), a wine preheater (8), a primary dephlegmator (3) for the wine distillate, a dephlegmator (11) for the esteraldehyde fraction, a condenser (13) with a lantern (14) for the wine distillate and a condenser (12) with a lantern (15) for the esteraldehyde fraction, characterized in that it also contains a concentration column (2), connected to the primary dephlegmator (3), to the purification column (9) and to the distillation column (1) through a discharge pipe into the concentration column (2) of the hydroalcoholic vapors containing SO2, equipped with a valve (18); a separator (4), connected to the distillation column (1) and to the primary dephlegmator (3), which is connected to a secondary dephlegmator (5) for the wine distillate, connected to a condenser (6), which, in turn, is connected to the purification column (9); a desulphite (10), which is connected to the distillation column (1) through a discharge pipe into the desulphite (10) of the hydroalcoholic vapors containing SO2, equipped with a valve (17), at the same time, the desulphite (10) is connected to the concentration column (2) through a discharge pipe into the latter of the hydroalcoholic vapors cleaned of SO2, equipped with a valve (16).