RU44671U1 - SEPARATION INSTALLATION OF C4 HYDROCARBON FRACTIONS - Google Patents

Abstract

The utility model relates to the field of petrochemistry, specifically, to plants designed to separate C ₄ hydrocarbon fractions. The technical result is the creation of an installation that allows the separation of C ₄ hydrocarbon fractions of various compositions with a high degree of separation. The proposed installation includes a separation unit for butane-isobutane and butylene-isobutylene fractions by extractive distillation containing an extractive distillation column, a desorption column and columns for washing hydrocarbon fractions from the extractant, and a distillation column for separating the butylene-isobutylene fraction installed after the extractive distillation unit.

Description

The utility model relates to the field of petrochemistry, specifically, to plants designed to separate C ₄ hydrocarbon fractions.

A known installation for the separation of C ₄ hydrocarbon fractions obtained by dehydrogenation of n-butane and containing at least n-butane, n-butene and isobutene, including a unit for separating isobutene from n-butane and n-butenes and a node for separating n-butane and n-butene by extractive distillation. Alternatively, the installation may comprise a unit for separating n-butane and a mixture of n- and isobutene by extractive distillation and a unit for extracting isobutene compounds by contacting a mixture of n- and isobutene with reagents in the presence of catalytic systems (RF Patent No. 21595913, IPC ⁷ C 07 C 5/333 , С 07 С 5/25, С 07 С 11/02, publ. 20.10.2000).

Using the installation allows you to select only products formed from isobutene - 4,4-dimethyldioxan-1,3, 3-methylbutanediol-1,3 and tert-butanol.

A well-known installation of complex processing of C ₄ hydrocarbon fractions of gasoline pyrolysis, containing a butadiene-1,3 extraction unit by extractive distillation, an isobutylene extraction unit and a butane / n-butene separation unit by extractive distillation (S.Yu. Pavlov “Isolation and purification of monomers for synthetic rubber” L., "Chemistry", 1987, pp. 167-168).

The described installation is intended only for the separation of C ₄ pyrolysis fractions with a low content of isobutylene.

Closest to the proposed installation is the separation of C ₄ hydrocarbon fractions, including a separation unit of butanes and butenes by extractive distillation, consisting of extractive distillation columns, desorption columns and hydrocarbon washing columns

fractions from the extractant, and the site for the synthesis of methyl tert-butyl ether (S.Yu. Pavlov "Isolation and purification of monomers for synthetic rubber", L., "Chemistry", 1987, pp. 170, 51-52).

The installation allows the separation of C ₄ hydrocarbon fractions of catalytic cracking, which are characterized by the practical absence of butadiene-1,3 and a low content of isobutylene.

The objective of the utility model is to develop an installation that allows the separation of C ₄ hydrocarbon fractions of various compositions with a high degree of separation.

The problem is solved by the installation of separation of C ₄ hydrocarbon fractions, including a separation unit for butane-isobutane and butylene-isobutylene fractions by extractive distillation, containing an extractive distillation column, a desorption column and a column for washing hydrocarbon fractions from the extractant, and a distillation column for separating the butylene-isobutylene fraction installed after the extractive distillation unit.

The bottoms of the extractive distillation column can be combined with the desorption column.

The difference between the proposed utility model and the closest one is that it contains a distillation column for separating the butylene-isobutylene fraction into the butylene and isobutylene fractions installed after the extractive distillation unit.

The proposed installation contains (Fig.):

1 - node extractive distillation With ₄ hydrocarbon fractions, including a column of extractive distillation, desorption column and column washing hydrocarbon fractions from the extractant;

2 - distillation column for the separation of butylene and isobutylene fractions.

The proposed installation works as follows.

With _{4, the} hydrocarbon fraction is fed to the extractive distillation column of the extractive distillation unit 1, where, in the presence of an extractant, the hydrocarbon fractions are separated into butane-isobutane and butylene-isobutylene fractions. The top product of the extractive distillation column is selected butane-isobutane fraction pairs, which, after condensation, are sent to the washing column from the extractant and for further processing. The bottom product of the extractive distillation column is sent to the desorption column, which can be combined with the bottom part of the extractive rectification column. In the desorption column, the butylene-isobutylene fraction and the extractant are separated. The top product of the desorption column is a pair of butylene-isobutylene fraction, which, after condensation, is sent to the washing column from the extractant. The desorbed extractant is removed from the cube of the desorption column and returned to the extractive distillation unit. The butylene-isobutylene fraction is fed to the distillation column 2. Vapors of the isobutylene fraction are selected as the top product of the column, which, after condensation, is sent for further processing. The bottled fraction of the distillation column discharges the butylene fraction, which is sent for further processing.

The proposed utility model allows the processing of C ₄ hydrocarbon fractions of various compositions to obtain the desired products, for example, isobutylene.

Claims (2)

1. Installation for the separation of C ₄ hydrocarbon fractions, including a separation unit for butane-isobutane and butylene-isobutylene fractions by extractive distillation, containing an extractive distillation column, a desorption column and a column for washing hydrocarbon fractions from the extractant, characterized in that it further comprises a distillation column for butylene separation -isobitulin fraction established after the extractive distillation unit. 2. Installation according to claim 1, characterized in that the still part of the extractive distillation column is combined with a desorption column.