SU1171047A1 - Rectifying column - Google Patents

Abstract

1. RECEPTION COLUMN1A, including a case with fittings for input and output of raw materials, devices for heat conductor and heat sink, tubular contact devices fixed to melod by gratings, distribution devices, characterized in that, in order to increase its effectiveness by preventing thermal decomposition of thermo-lab components and rational distribution of flows, each tubular contact device is made with a thickening in the lower part located in the heat supply zone to the nozzle of the input of raw materials, and with a thickening Niemi upper portion located in the heat sink zone, wherein the thickening in the upper part of the contact device configured outer surface, and a thickening at the bottom - on the inner surface .. 2. Column according to on. 1, characterized in that the distribution device is made in the form of a horizontal sheet with tubes, the lower ends of which are located at the level of the nozzle input, raw materials.

Description

one

The invention relates to the design of columns for carrying out heat and mass transfer processes and can be used in the petrochemical chemical and food industry.

The purpose of the invention is to increase efficiency by preventing the thermal decomposition of thermolabile components and the rational distribution of mass flows.

The drawing shows the column, a longitudinal section.

The collar contains a housing 1, in the upper part of which a device for heat removal in the form of a refrigerator 2 with tube sheets 3 and 4 is placed, and in the lower part - a device for heat supply in the form of a heater 5 with tube plates 7 and 8. Between the pipe grids along the body tubular contact devices 9 are placed, the upper part of which has a thickening 10 (in the strips of contact devices), and the lower part - a thickening 11 (on the outer surface of the contact elements). A distributor in the form of a plate 12 with tubular devices 13 for introducing and distributing the VAT residue of the atmospheric part into the evacuated cavity of devices 9 is installed above the cooler 2. The column is equipped with fittings 14-23 and a device for distributing the initial mixture (not shown). The column also has external heat exchangers 24-28 and heaters 29 and 6.

The column works in the following way.

The initial cold mixture of thermolabile components (raw materials) is supplied through external heat exchangers 26 and 27, where it is partially heated by the heat of the first fraction A and the second fraction B. Then the raw mixture is fed through fitting 14 to the refrigerator 2, where it is additionally heated by the heat of condensation of the first fraction And on the corrugated surface of the lattice 3. The thickenings 10, washed by the cold stream of the initial mixture, are cold accumulators, by means of which the ratio of liquid reflux in the column is regulated. The raw material mixture from cooler 2 is discharged through fitting 15 and is heated in heat exchangers 24 (due to the heat

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intermediate fraction C), 28 (due to the heat of the heavy fraction D) and 25 (due to the heat of heat carrier B leaving heater 5), then through heater 6 and fitting 18 enters the atmospheric part of the column (in the annular space) and is sprayed onto the outer The surface of the contact device 9, where the vapor and liquid phases are separated.

Due to the temperature gradient along the height of the contact devices 9, cooled in the upper part with a cold stream of the initial mixture and refrigerator 2, and heated in the lower hour in heater 5, multiple evaporation and condensation occurs at atmospheric (or somewhat excessive) pressure at reduced temperatures , allowing the selection of fraction A without thermal destruction of raw materials. The light fraction A vapor condenses on the outer walls of the contact devices 9 and on the corrugated distribution grid 3 and, by means of a stack along the outer surface of the devices 9, forms a reflux stream. The balance amount of fraction A is removed from the housing 1 through the fitting 17 and is condensed in the heat exchanger 26. In the lower part of the atmospheric section of the column, an intermediate fraction B is collected, which partially evaporates on the outer walls of the devices 9 and on the grid 7 with the formation of steam irrigation. The balance amount of intermediate fraction B is withdrawn from the column through fitting 19. Then fraction B through heat exchanger 24 or, mine, through fitting 23 enters distribution plate 12 and through channels of tube devices 13 is introduced into the evacuated cavity of device 9, having a section of different height, similar in shape to vacuum columns.

Due to the low residual pressure in the cavity of the contact devices, further separation of the intermediate fraction B occurs at temperatures equal to or close to the corresponding parts of the equipment. roystv 9 atmospheric section of the column. The balance amount of fraction B formed in the separation process is discharged through fitting 16 and heat

The manhole 27 and is directed to a tank connected to a vacuum-creating appan. A reactor (not shown), and the balance amount of the heavy fraction is discharged through the nozzle 22 and the heat exchanger 28.

Steam and liquid reflux streams in the vacuum section of the column are formed by evaporation of a film of the heavy fraction G onto the Top710474

devices 9, enclosed between grids 7 and 8 of heater 5, and condensation of vapors of fraction B on the surface of contact devices 5 9, concluded between grids 3 and thickenings 11 and 10 of contact devices, accumulate heat and cold, respectively, in the lower and upper parts x devices 9.

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Claims (2)

1. RECTIFICATION COLUMN, including a housing with raw material inlet and outlet fittings, heat conduit and heat sink devices, tubular contact devices fixed between the grilles, switchgears, characterized in that, in order to increase its efficiency by preventing thermal decomposition of thermolabile components and rational distribution of flows, each tubular contact device is made with a thickening in the lower part located in the heat supply zone to the raw material inlet fitting, and with a thickening of the upper of the part located in the heat sink zone, wherein the thickening in the upper part of the contact device is made of the outer surface, and the thickening _β in the lower part is made on the inner surface 55. . 2. The column by. 1, characterized in that the distribution device is made in the form of a horizontal sheet with tubes, the lower ends of which are located at the level of the raw material inlet fitting.