MD1140Z - Intermittent-duty plant for direct distillation of wines with high content of sulphur dioxide - Google Patents

Abstract

The invention relates to the wine industry, namely to plants for distillation of wines with high content of sulphur dioxide.The plant, according to the invention, comprises, interconnected by conduits, a still (1), a distillation column (2), a dephlegmator (3), a wine heater (4), a cooler (6), an inspection lantern for the alcohol (7) and a wine distillate collector (12). The plant also comprises a desulfitator (5), which is provided with a lime slurry feed/removal pipe branch and is connected to the still (1) through a conduit for feeding into the desulfitator (5) the water-alcohol vapors containing SO2, provided with a valve (10), it is also connected to the distillation column (2) through a conduit for feeding into the latter the water-alcohol vapors cleaned from SO2, provided with a valve (11). The still (1) is connected to the distillation column (2) through a conduit for feeding into the latter the water-alcohol vapors containing SO2, provided with a valve (9).

Description

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

Currently, several types of installations are used in the wine industry for distilling wines: the Charente installation, the direct distillation installation with discontinuous operation and the direct distillation installation in continuous flow.

The closest solution is a discontinuous direct wine distillation plant, which consists of a still, in the upper part of which a distillation column is mounted, which consists of 3...4 plates. A dephlegmator is mounted in the upper part of the column, which, in turn, is connected by pipes to a wine preheater and a refrigerant, the latter being connected by an alcohol inspection lantern to the containers for collecting the finished products. The plant is widely used in small and medium-sized wineries, where small quantities of wine are distilled. The plant has substantial advantages, namely, it allows obtaining high-quality distillates through a single distillation process and the relatively low cost of the product [1].

The disadvantages of the installation are that it does not allow the distillation of wines with a relatively high SO2 content, namely wines intended for direct consumption. It is worth mentioning that wines intended for direct consumption contain SO2 in quantities exceeding 50 mg/dm3, but since these are products with a limited shelf life, companies that have not proven to market their wines within the prescribed period are forced to distill them in order not to lose the product.

Sulfurous anhydride present in wine, being slightly volatile, is eliminated together with hydroalcoholic vapors during wine distillation. On the one hand, SO2, being chemically very aggressive, has a high corrosive action on technological equipment, especially the distillation column. On the other hand, SO2, distilling together with ethyl alcohol, ultimately penetrates the head fraction and the wine distillate, reducing their quality, but in the normative acts for wine distillate the presence of SO2 is regulated.

The problem that the invention solves consists in creating an installation that would allow the qualitative removal of SO2 from hydroalcoholic vapors before they enter the distillation column.

The direct distillation plant for wines with a high sulfur dioxide content with discontinuous operation, according to the invention, eliminates the above-mentioned disadvantages by including, connected to each other by pipes, a still, a distillation column, a dephlegmator, a wine preheater, a refrigerant, an alcohol inspection lantern and a wine distillate collector. The plant also includes a desulphite, which is equipped with a lime suspension discharge/ejection connection and is connected to the still by a desulphite discharge pipe for hydroalcoholic vapors containing SO2, equipped with a valve, and is also connected to the distillation column by a discharge pipe for the last of the hydroalcoholic vapors cleaned of SO2, equipped with a valve. The still is connected to the distillation column by a discharge pipe for the last of the hydroalcoholic vapors containing SO2, equipped with a valve.

The technical result of the invention consists in the fact that the new installation allows the distillation of wines with high SO2 content to obtain qualitative wine distillates.

The technical result of the invention is due to the fact that the desulphite added to the usual direct distillation plant with discontinuous operation allows the removal of SO2 from the hydroalcoholic vapors, thus protecting the distillation column from the corrosive action of SO2, as well as reducing its concentration in the wine distillate below the permissible norms.

The invention is explained by the drawing in the figure, which represents the direct distillation installation of wines with high sulfur dioxide content with discontinuous operation.

The proposed installation (see figure) includes: still 1, six-plate copper distillation column 2, dephlegmator 3, wine preheater 4, desulphite remover 5, refrigerant 6, alcohol inspection lantern 7, water source 8, valves 9, 10 and 11, wine distillate collector 12.

In the installation, the still 1, the distillation column 2, the dephlegmator 3, the wine preheater 4, the refrigerant 6, the alcohol inspection lantern 7 and the wine distillate collector 12 are connected to each other by pipes.

Desulphite 5 is equipped with a lime suspension discharge/ejection connection and is connected to still 1 through the discharge pipe into desulphite 5 of hydroalcoholic vapors containing SO2, which is equipped with valve 10. Desulphite 5 is connected to distillation column 2 through the discharge pipe into the latter of hydroalcoholic vapors cleaned of SO2, which is equipped with valve 11.

The still 1 is connected to the distillation column 2 through the discharge pipe into the latter of the hydroalcoholic vapors containing SO2, which is equipped with valve 9.

Still 1 is equipped with two heating systems: direct, performed by bubbling water vapor into the wine, and indirect - through a heat exchanger, installed in the body of still 1.

The installation provides that the wine containing SO2, previously heated in the wine preheater 4, is directed to the still 1, where it will be heated until the formation of hydroalcoholic vapors, which will be directed to the desulphite 5, in which the SO2, present in these vapors, is captured by the lime suspension, and the remaining hydroalcoholic vapors are directed to the distillation column 2, from which through the dephlegmator 3, where they are separated and liquefied, they are directed to the refrigerant 6, then through the alcohol inspection lantern 7 they are collected in the form of wine distillate, head and tail fractions. The installation is adjusted so that only 1/4...1/3 of the wine distillate is allowed to pass through the desulphite 5, after which the hydroalcoholic vapors, formed in the still 1, are directed to the distillation column 2.

The installation operates in the following way.

Valve 9 is closed, valves 10 and 11 are opened. An aqueous lime suspension is introduced into the desulphite 5. The wine with a high SO2 content, subjected to distillation, is introduced into the wine preheater 4, in which it is partially heated with the vapors exiting the dephlegmator 3, being directed into the still 1, where it is heated directly with superheated water vapor and through the heat exchanger installed in the still 1. In parallel, the lime suspension in the desulphite 5 is heated with superheated water vapor. When the wine in the still 1 reaches the temperature of formation of hydroalcoholic vapors, they are directed through the pipe equipped with valve 10 into the desulphite 5, where they are bubbled through the lime suspension. As a result, SO2, present in the hydroalcoholic vapors, combines with the calcium hydroxide in the lime suspension, forming calcium sulfite in the form of a non-volatile precipitate, and the rest of the hydroalcoholic vapors are directed through the pipe equipped with valve 11 to distillation column 2. In distillation column 2, a separation of the components of the hydroalcoholic mixture takes place. The less volatile components condense and from the bottom of column 2 through the pipe are returned to the still 1, and the more volatile components in the form of vapors are directed to the dephlegmator 3. In the dephlegmator 3, a new separation of the components of the hydroalcoholic vapors occurs: the less volatile components in the form of a critical mixture are returned to the distillation column 2, and the more volatile components in the form of phlegm are partially directed to the wine preheater 4, and from there, already liquefied, they are directed to the refrigerant 6, or from the dephlegmator 3, where they are cooled, through the lantern 7 they are directed to the wine distillate collector 12, where they are collected separately: the top fraction, the wine distillate and the tail fraction.

Since SO2 is very volatile, it evaporates easily and is mostly distilled together with the first portions of hydroalcoholic vapors, which form the top fraction and only partially the wine distillate. When 1/4...1/3 of the volume of the wine distillate is formed, valve 9 is opened, valves 10 and 11 are closed and the hydroalcoholic vapors are directed directly to the distillation column 2. The heating of the desulphite 5 with water vapor is stopped. After finishing the distillation process, the luther is removed from the still 1, and the used lime suspension from the desulphite 5. It should be noted that in the desulphite 5 an excess of calcium hydroxide is introduced into the lime suspension in relation to the total content of SO2 in the wine.

The distillation plant (see figure) can also be used for the distillation of wines without SO2 content. In this case, the desulphite 5 will be disconnected by closing valves 10 and 11, and valve 9 will be opened. The distillation process will proceed exactly as in a classic direct distillation plant with discontinuous operation.

1. Maltabar V. M., Fertman G. И. Cognac technology. Издательство Пищевая промышленность, 1971, p. 100-102

Claims (1)

Direct distillation installation for wines with a high sulfur dioxide content with discontinuous operation, which includes, connected to each other by pipes, a still (1), a distillation column (2), a dephlegmator (3), a wine preheater (4), a refrigerant (6), an alcohol inspection lantern (7) and a wine distillate collector (12), characterized in that it also includes a desulphite (5), which is equipped with a connection for discharging/evacuating the lime suspension and is connected to the still (1) through a discharge pipe into the desulphite (5) of the hydroalcoholic vapors containing SO2, equipped with a valve (10), it is also connected to the distillation column (2) through a discharge pipe into the latter of the hydroalcoholic vapors cleaned of SO2, equipped with a valve (11); The still (1) is connected to the distillation column (2) through a pipe for discharging hydroalcoholic vapors containing SO2 into the latter, equipped with a valve (9).