FR3130632A1 - Liquid-liquid extraction column with variable weir cross-section - Google Patents

Abstract

Liquid-liquid extraction column (1) comprising feed (2), washing (3) and backwashing (4) injection points, two withdrawal points (5, 6), plates (Pi) arranged along the column and defining 2 to 30 zones each comprising at least two trays, the n zones comprising: at least one extraction zone Zi comprising the zones from Z1 to Zx, x being greater than or equal to 1, and at least a backwash zone comprising the zones from Zx+1 to Zn, where n is greater than x; in which the trays of a same zone have a same cross-sectional area (S) of the weirs (11, 12); wherein when x > 1, said area in the Zi zones increases as i increases; and when x = 1, said area in the at least one backwash zone is less than said area in zone Z1. Figure 4 to be published

Description

Liquid-liquid extraction column with variable weir cross-section

The field of the invention relates to a column (extractor) for the liquid-liquid separation of hydrocarbon compounds, such as aromatic compounds (e.g. A6-A11) from extended hydrocarbon cuts (e.g. C6-C11 cut, such as from a catalytic cracking unit (FCC Fluid Catalytic Cracking according to the English terminology).

A liquid-liquid extraction operation is a key brick of processes carrying out the separation of hydrocarbon cuts, such as the separation of a mixture of aromatics and non-aromatics. The principle of operation is based on the differences in solubility of the compounds of a homogeneous liquid filler in an appropriate solvent (e.g. aprotic and polar solvent, such as Sulfolane or DMSO). The addition to the charge of a partially miscible solvent causes the appearance of a second phase towards which some of the compounds (e.g. aromatic compounds), the most soluble constituents, are preferentially transferred.

Typically, the liquid-liquid extraction technology implements a liquid-liquid separation column comprising a plurality of perforated plates and equipped with one to several weirs per plate depending on the targeted capacities (we speak of a plate with 1 or 2 passes or multi-passes beyond 3 weirs).

The design rules of a conventional liquid-liquid extraction column consider a reference plate sized on the maximum flow rates of each phase and their physico-chemical properties. This design is then implemented for the entire column by stacking a plurality of trays, the trays thus all being substantially identical.

On the other hand, the applicant has identified that the operation of a liquid-liquid extraction column can generate great variability, depending in particular on:
- the flow rate of each of the phases along the column - this phenomenon is linked, on the one hand to the transfer of matter from the solutes of the feed to the solvent and on the other hand, to the possibility of modulating the flow of counter- washing according to the nature of the load and the specifications targeted; And
- physico-chemical properties and in particular the interfacial tension between the filler and the solvent linked to the progressive enrichment in compounds extracted from the filler towards the solvent.

The object of the present invention is to remedy the deficiencies mentioned above.

In the context described above, a first object of the present description is to propose a liquid-liquid extraction column allowing:
- to maintain a range of between 5% and 20% of the average volume fraction of dispersed phase ( ie, solvent/heavy phase) in a compartment ( ie, zone comprising a perforated plate and an adjacent inter-plate space);
- the non-entrainment of the dispersed phase droplets in the weirs by the continuous phase ( ie, load/light phase) in order to limit the axial mixing of the dispersed phase;
- a coalesced layer height of the dispersed phase on each plate sufficient to prevent the passage of the continuous phase through the perforated plate (and to force the exclusive passage of the continuous phase in the weirs);
- an adapted continuous phase transverse velocity, which does not disturb the flow of the dispersed phase.

Surprisingly, the applicant has identified that particular characteristics of perforated plates, such as the cross section (surface) of the weirs, make it possible to control the hydrodynamics all along the column by limiting the axial mixing. This technical solution makes it possible to maintain satisfactory material transfer efficiency on each plate.

According to a first aspect, the aforementioned objects, as well as other advantages, are obtained by a liquid-liquid extraction column, comprising the following elements:
- A first injection point of a first phase arranged at an intermediate position between the top and the bottom of the column;
- a second injection point for a second phase and a third injection point for a backwash liquid, one (of the second and third injection points) being placed at the head of the column and the the other being placed at the bottom of the column;
- a first point for withdrawing an extract and a second point for withdrawing a raffinate, one (of the first and second points of withdrawal) being placed at the bottom of the column and the other being placed at the top of the column ;
- a plurality of plates arranged from the top of the column to the bottom of the column and defining n zones, each zone comprising at least two plates n being between 2 and 30, preferably between 3 and 30;
in which the n zones include:
- at least one extraction zone Z _i between a zone (eg column head) Z ₁ comprising the second injection point of the second phase, and a supply zone Z _x comprising the first injection point of the first phase, x being greater than or equal to 1 (preferably x is greater than 1); And
- at least one backwash zone between a zone Z _x+1 and a zone (eg column bottom) Z _n comprising the third point of injection of the backwash liquid, n being greater than x;
in which the trays of the same zone have substantially the same weir cross-sectional area; And
in which :
- when x is greater than 1, the weir cross-sectional area of the zones Z _i increases when the value i increases; And
- When x is equal to 1, the weir cross-sectional area of the at least one backwash zone is less than the weir cross-sectional area of the zone Z ₁ .

According to one or more embodiments, n is between 3 and 30, and x is greater than 1.

According to one or more embodiments, the liquid-liquid extraction column comprises the following elements:
- A first injection point of a first phase arranged at an intermediate position between the top and the bottom of the column;
- a second injection point of a second phase arranged at the top of the column;
- a third point of injection of a backwash liquid arranged at the bottom of the column;
- a first extraction point for an extract placed at the bottom of the column;
- a second point for drawing off a raffinate placed at the top of the column;
- a plurality of plates arranged from the top of the column to the bottom of the column and defining n zones, each zone comprising at least two plates, n being between 3 and 30;
in which the n zones include:
- a plurality of extraction zones Z _i between a column head zone Z ₁ comprising the second injection point of the second phase, and a supply zone Z _x comprising the first injection point of the first phase, x being greater than 1; And
- at least one backwash zone between a zone Z _x+1 and a column bottom zone Z _n comprising the third point of injection of the backwash liquid, n being greater than x;
in which the trays of the same zone have substantially the same weir cross-sectional area; And
in which the surface of the cross-sections of the weirs of the zones Z _i increases when the value i increases.

According to one or more embodiments, in the extraction zones Z _i or i varies from 1 to x (ie, x greater than 1), the ratio between the cross-sectional area of a weir of a zone Z _i on the surface of the cross section of a weir of a zone Z _i+1 , is between 0.50 and 0.90.

According to one or more embodiments, in the extraction zones Z _i or i varies from 1 to x (ie, x greater than 1), the ratio between the cross-sectional area of a weir of a zone Z _i on the surface of the cross section of a weir of a zone Z _i+1 , is between 0.60 and 0.80.

According to one or more embodiments, in the extraction zones Z _i or i varies from 1 to x (ie, x greater than 1), the ratio between the cross-sectional area of a weir of a zone Z _i on the surface of the cross section of a weir of a zone Z _i+1 , is between 0.60 and 0.75.

According to one or more embodiments, when x is equal to 1, the ratio between the surface of the cross sections of the weirs of the at least one backwashing zone on the surface of the cross sections of the weirs of the zone Z ₁ , is between 0.50 and 0.95.

According to one or more embodiments, the at least one backwash zone is a plurality of zones, from a zone Z _x+1 to the zone (eg column bottom) Z _n , and in which the surface cross sections of the weirs increases, is constant, or decreases from the zone Z _x+1 to the zone Z _n .

According to one or more embodiments, the at least one backwash zone is a plurality of zones subdivided into:
a plurality of zones Z _j comprised between zone Z _x+1 and zone Z _y , y being greater than x+1; And
- a plurality of zones Z _k between zone Z _y+1 and zone (eg column bottom) Z _n , and
- in zones Z _j or j varies from x+1 to y, the surface of the cross-sections of the weirs increases, is constant, or decreases when the value j increases; and or
- in zones Z _k where k varies from y+1 to n, the surface of the cross-sections of the weirs increases, is constant, or decreases when the value k increases.

According to one or more embodiments, in zones Z _j or j varies from x+1 to y, the ratio between the surface of the cross section of a weir of a zone Z _j on the surface of the cross section d 'a weir of a zone Z _j+1 , is between 0.50 and 0.95.

According to one or more embodiments, in zones Z _j or j varies from x+1 to y, the ratio between the surface of the cross section of a weir of a zone Z _j on the surface of the cross section d 'a weir of a zone Z _j+1 , is between 1.05 and 2.0.

According to one or more embodiments, in zones Z _k or k varies from y+1 to n, the ratio between the surface of the cross section of a weir of a zone Z _k on the surface of the cross section d 'a weir of a zone Z _k+1 , is between 0.50 and 0.95.

According to one or more embodiments, in zones Z _k or k varies from y+1 to n, the ratio between the surface of the cross section of a weir of a zone Z _k on the surface of the cross section d 'a weir of a zone Z _k+1 , is between 1.05 and 2.0.

According to one or more embodiments, the number of zones Z _i is between 2 and 10 and/or the number of backwash zones is between 1 and 10.

According to one or more embodiments, the number of zones Z _j is between 2 and 10 and/or the number of zones Z _k is between 2 and 10.

According to one or more embodiments, the cross-sectional area of a weir of the backwash zone Z _x+1 is less than, equal to, or greater than the cross-sectional area of a weir of the zone d extraction Z _x .

According to one or more embodiments, the cross-sectional area of a backwash zone weir Z _x+1 is less than the cross-sectional area of an extraction zone weir Z _x .

According to one or more embodiments, the cross-sectional area of each weir is between 1% and 25%, preferably between 2% and 10%, very preferably between 3% and 6% of the total cross-sectional area. of the extraction column.

Embodiments of the liquid-liquid extraction column according to the first aspect as well as other characteristics and advantages will appear on reading the following description, given solely by way of illustration and not limitation, and with reference to the following drawings.

List of Figures

There schematically shows a sectional view of a liquid-liquid extraction column according to the present invention.

There schematically shows a sectional view of the flow of the dispersed phase and the continuous phase in a liquid-liquid extraction column according to the present invention.

There schematically shows a sectional view of a liquid-liquid extraction column according to the present invention defined by a plurality of zones Z_Ibetween column head zone 1 and feed zone Z_x, a plurality of Zone Z_Ibetween zone Z_x+1and a zone Z_there, and a plurality of zones Z_kincluded between zone Z_y+1and zone Z_notcolumn bottom.

There is a graph showing the evolution of the weir axial velocity of the continuous phase along a liquid-liquid extraction column according to the present invention, in which the cross section of the weirs is variable.

There is a graph showing the evolution of the weir axial velocity of the continuous phase along a reference liquid-liquid extraction column, in which the cross section of the weirs is constant.

Claims (15)

Liquid-liquid extraction column (1) comprising the following elements:
- a first injection point of a first phase (2) arranged at an intermediate position between the top and the bottom of the column (1);
- a second injection point for a second phase (3) and a third injection point for a backwash liquid (4), one being placed at the top of the column (1) and the other being arranged at the bottom of the column (1);
- a first point for withdrawing an extract (5) and a second point for withdrawing a raffinate (6), one being placed at the bottom of the column (1) and the other being placed at the top of the column ( 1);
- a plurality of plates (P _i ) arranged from the top of the column (1) to the bottom of the column (1) and defining n zones, each zone comprising at least two plates (Pi), n being between 2 and 30;
in which the n zones include:
- at least one extraction zone Z _i between a zone Z ₁ comprising the second injection point of the second phase (3), and a supply zone Z _x comprising the first injection point of the first phase (2), x being greater than or equal to 1; And
- at least one backwash zone between a zone Z _x+1 and a zone Z _n comprising the third point of injection of the backwash liquid (4), n being greater than x;
in which the plates (Pi) of the same zone have the same cross-sectional surface (S) of the weir (11, 12); And
in which
- when x is greater than 1, the surface of the cross sections (S) of the weirs (11, 12) of the zones Z _i increases when the value i increases; And
- when x is equal to 1, the cross-sectional area (S) of the weirs (11, 12) of the at least one backwash zone is less than the cross-sectional area (S) of the weirs (11, 12) of zone Z ₁ . A liquid-liquid extraction column (1) according to claim 1, wherein n is between 3 and 30, and x is greater than 1. Liquid-liquid extraction column (1) according to Claim 1 or Claim 2, in which, in the extraction zones Z _i or i varies from 1 to x, the ratio between the cross-sectional area (S) of a weir (11, 12) of a zone Z _i on the surface of the cross section (S) of a weir (11, 12) of a zone Z _i+1 , is between 0.50 and 0.90. Liquid-liquid extraction column (1) according to any one of the preceding claims, in which, in the extraction zones Z _i or i varies from 1 to x, the ratio between the cross-sectional area (S) of a weir (11, 12) of a zone Z _i on the surface of the cross section (S) of a weir (11, 12) of a zone Z _i+1 , is between 0.60 and 0.80. Liquid-liquid extraction column (1) according to any one of the preceding claims, in which, in the extraction zones Z _i or i varies from 1 to x, the ratio between the cross-sectional area (S) of a weir (11, 12) of a zone Z _i on the surface of the cross section (S) of a weir (11, 12) of a zone Z _i+1 , is between 0.60 and 0.75. Liquid-liquid extraction column (1) according to any one of the preceding claims, in which the at least one backwash zone is a plurality of zones, from zone Z _x+1 to zone Z _n , and in which the area of the cross sections (S) of the weirs (11, 12) increases, is constant, or decreases from the zone Z _x+1 to the zone Z _n . Liquid-liquid extraction column (1) according to any one of the preceding claims, in which the at least one backwash zone is a plurality of zones subdivided into:
a plurality of zones Z _j comprised between zone Z _x+1 and zone Z _y , y being greater than x+1; And
- a plurality of zones Z _k between zone Z _y+1 and zone Z _n , and
in which :
- in the zones Z _j or j varies from x+1 to y, the surface of the cross sections S of the weirs (11, 12) increases, is constant, or decreases when the value j increases; and or
- in the zones Z _k or k varies from y+1 to n, the surface of the cross sections S of the weirs (11, 12) increases, is constant, or decreases when the value k increases. Liquid-liquid extraction column (1) according to Claim 7, in which, in the zones Z _j or j varies from x+1 to y, the ratio between the cross-sectional area (S) of a weir ( 11, 12) of a zone Z _j on the surface of the cross section (S) of a weir (11, 12) of a zone Z _j+1 , is between 0.50 and 0.95. Liquid-liquid extraction column (1) according to Claim 7, in which, in the zones Z _j or j varies from x+1 to y, the ratio between the cross-sectional area (S) of a weir ( 11, 12) of an area Z _j on the surface of the cross section (S) of a weir (11, 12) of an area Z _j+1 , is between 1.05 and 2.0. Liquid-liquid extraction column (1) according to any one of Claims 7 to 9, in which, in the zones Z _k or k varies from y+1 to n, the ratio between the cross-sectional area (S ) of a weir (11, 12) of an area Z _k on the surface of the cross section (S) of an weir (11, 12) of an area Z _k+1 , is between 0.50 and 0.95. Liquid-liquid extraction column (1) according to any one of Claims 7 to 9, in which, in the zones Z _k or k varies from y+1 to n, the ratio between the cross-sectional area (S ) of a weir (11, 12) of an area Z _k on the surface of the cross section (S) of an weir (11, 12) of an area Z _k+1 , is between 1.05 and 2.0. Liquid-liquid extraction column (1) according to any one of the preceding claims, in which the number of zones Z _i is between 2 and 10 and/or the number of backwash zones is between 1 and 10 . Liquid-liquid extraction column (1) according to any one of Claims 7 to 12, in which the number of zones Z _j is between 2 and 10 and/or the number of zones Z _k is between 2 and 10 . Liquid-liquid extraction column (1) according to any one of the preceding claims, in which the cross-sectional area (S) of a weir (11, 12) of the backwash zone Z _x+1 is less than, equal to or greater than the cross-sectional area (S) of a weir (11, 12) of the extraction zone Z _x . Liquid-liquid extraction column (1) according to any one of the preceding claims, in which the cross-sectional area (S) of each weir (11, 12) is between 1% and 25% of the total area of the cross section of the liquid-liquid extraction column (1).