CA2087384A1 - Reduction of benzene content in gases - Google Patents

Abstract

REDUCTION OF THE BENZENE CONTENT IN PETROLS Invention by Christine TRAVERS, Patrick SARRAZIN, Jean Marie DEVES, Christian MARCILLY and Philippe TRAVERS The invention relates to a process for reducing the benzene content and for isomerization of paraffins in which isomerization is carried out of the mixture (a) of the filler characterized by a weight composition comprised in the following intervals:? between 40 and 80% paraffins? between 0.5 and 7% naphthenes? between 6 and 45% of aromatics and a maximum distillation temperature between 70 and 90 .degree.C, and (b) of a C5 - C6 cut of direct distillation, in the presence of an isomerization catalyst.

Description

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The invention relates to a method for reducing the e ~ ten ~ ur benzene in the gasoline pool using a reformate isomerization process light and / or of a Cs-C6 cut generally of direct distillation.

Environmental issues will jointly lead to the reduction of lead content and reduction of benzene content in gasoline fractions, preferably without reduction in octane number.
10 This leads to the need for a rearrangement of the different hydrocarbons present in the essence fractions.

Catalytic reforming used in severe conditions, and the isomerization of normal Cs-C6 paraffins of fai ~ the octane number are 15 the most common methods currently used to obtain high octane numbers without the addition of lead.

However, the catalytic reforming process produces quantities important benzene of high octane number. That's why it is 20 necessary to develop new methods for reducing the benzene content of gasolines while meeting the specifications on l octane number.

The combination of catalytic reforming and isomerization processes, 25 consisting of separating the Cs-C6 fraction from the reformate, isomerizing it and introduce it directly into the petrol pool to improve the octane number is well known: it is described for example in patents US-A-4457832, US-A-4 181 599, US-A-3 761 392. Treatment with Isomerization of the Cs-C6 cut resulting from the direct distillation of crude oil30 is also well known. It leads to a considerable improvement in the octane number of this cut. Reducing the benzene content of reformat can also be carried out in different ways, such as by example the modification of the naphtha cutting point between reforming and The isomerization or the separation of the reformate into two fractions: a reformate 35 heavy and a light reformate in which all the benzene is concentrated. This .

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light fraction is then sent to a hydrogenation unit which converts benzene to naphthene, which is then decycled in an isomerization unit working under severe conditions. The normal paraffins thus formed are isomerized by a conventional process isomerization (US-A 5,003,118). In the case of a catalyst isomerization based on chlorinated alumina, the naphthenes adsorb on the catalyst and thus contribute to deteriorate its activity.

US-A-3,611,117 also describes a process for hydro-isomerization of cyclic hydrocarbons which uses a melal from group Vll!
supported on zeolite as a catalyst for opening cycles in severe operating conditions and as an isomerization catalyst in mild operating conditions. ;

15 One of the major problems in reducing the benzene content by saturation followed by decyclization and isomerization of the paraffins formed is the possible decrease in the octane number of the charge.

The object of the present invention is to jointly achieve the reduction of 20 the benzene content in the light reformate and the isomerization of paraffins contained on the one hand in this light reformate and on the other hand in the Cs-C6 cut, generally paraffinic and resulting from direct distillation. The process of the present invention therefore comprises the isomerization of the mixture of the load defined below and of a Cs-C6 cut. Surprisingly, 25 the joint treatment of these two charges in an isomerization unit implementation under appropriate conditions leads to obtaining a almost totally benzene-free effluent with an index octane high enough that it can be directly incorporated essences after stabilization.
DETAILED DESCRIPTION OF THE INVENTION

The conditions under which isomerization is carried out, namely the operating conditions, the catalyst, etc. are well known to those skilled in the art 35 profession. They are nevertheless specified below.

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The charge concerned by the present invention contains a light fraction reformate and a Cs-C6 cut generally resulting from direct distillation.

The light fraction of the reformate is obtained by distillation of the said reformate. The 5 maximum distillation temperature of this fraction is between 70 and 90 C, pre ~ ered between 77 and 83 C. The weight composition by hydrocarbon families of this ~ light reaction of the reformate is variable at the following intervals:

- paraffins between 40.0 and 80.0%, - naphthenes: between 0.5 and 7.0%, - aromatic: between 6.0 and 45.0%.

Benzene is essentially the only aromatic compound included in 15 said fraction Furthermore, said fraction can comprise between 1 and 3% of hydrocarbons olefinic.

On the other hand, the light fraction of the reformate as described above has the following features:
- the average molecular weight is between 70 and 90 g / mol.
- the density, measured at 15C, is between 0.670 and 0.780 g / cm3. 5 - the value of the octane number sought is generally between 75 and 90.

Any other hydrocarbon feedstock from another process or set of processes and having characteristics similar to those described above 30 above can also be used.

The weight composition of the Cs-C6 cut generally resulting from the direct distillation is variable. It depends on the nature of the ~ rut to be treated in the case where the Cs-C6 cut comes from direct distillation.
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It can contain very low contents of compounds having 4 atoms of ~ arbone per molecule (less than 0.5% by weight).

The paraffin content of said cut is generally greater than 90%
weight, the naphthene content less than 10% by weight and the benzene content less than 1.5% by weight. Its research octane number is between 60 and 75.
.. ~ i According to the present invention these two charges are mixed and then sent together in the isomerization zone, the content of light reformate or any other charge of similar characteristics in the mixture varying from 0 to 100% and preferably 20 to 80%. The isomerization zone includes one or more isomerization reactor (s).

The isomerization zone is implemented under the conditions ~ suelles of isomerization: the temperature is generally between 150 C and 300 ~ C and preferably between 230 and 280 ~ C, and the pressure by ~ ielie of hydrogen is generally between atmospheric pressure and 70 bar and preferably between 5 and 50 bar. Spatial speed is understood g ~ usually between 0.2 and 10 liters and preferably between 0.5 and 5 liters of liquid hydrocarbons per liter of catalyst and per hour. The report hydrogen / charge molar is generally between 0.5 and 10 and preferably between 1 and 3.

The catalyst used in the isomerization zoster according to the process of present invention may be a platinum-based catalyst on alumina chlorinated, containing from 1 to 10% of chlorine and preferably from 2 to 9%
chlorine, but preferably using a catalyst comprising at least minus a metal from group VIII and a zeolite. Different zeolites can be used for said catalyst such as for example mordenite or zeolite Q. A mordenite having a ratio is preferably used SitAI (atomic) between 5 and 50 and preferably between 5 and 30, a sodium content less than 0.2% and preferably less than 0.1% (relative to the weight of dry zeolite), a volume of mesh V of the elementary mesh between 2.78 and 2.73 nm3 and preferably .
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between 2.77 and 2.74 nm3, a benzene absorption capacity greater than 5% and preferably greater than 8% (relative to the weight of dry solid).
The mordenite thus prepared is then mixed with a matrix generally am ~ rphe (alumina, silica alvmine, kaolin, ...) and shaping by any method known to those skilled in the art (extrusion, pelletizing, coating). The mordenite content of the support thus obtained must be greater than 40% and preferably greater than 60% by weight.

At least one hydrogenating metal from group VIII, preferably chosen from the group formed by platinum, palladium, and nickel, is then deposited on this support, either in the form of a tetramine complex by cation exchange, either in the form of hexachloroplatinic acid in the case of platinum or in form of palladium chloride by anioni exchange ~ ue.

In the case of platinum o ~ palla ~) um, the ~ eneur by weight is between 0.05 and 1% and preferably between 0.1 and 0.6%. In the case of nickel the weight content is between 0.1 and 10% and preferably between 0.2 and 5%.

The effluent thus obtained then has a sulfisantly high octane number to be incorporated into the essence fractions after stabilization and is practically completely free of benzene (lower effluent content 0.1%). The example which follows specifies the invention without limiting its scope. In this example, the isomerization is carried out in a single reactor (or unit) Example 1 (according to the invention) The light reformate obtained after distillation at 85 ° C., containing 21.5% of benzene and having an octane number of 80.3 is mixed at a rate of 50% by weight with a Cs-C6 cut of direct distillation containing 0.7% of benzene and having an octane number of 65. The compositions of these 2 products are shown in Table 1. The charge from the mixture, the composition also appears in table 1, is sent in a unit isomerization at a temperature of 250C, a pressure of 3 ~ bar with an LHSV equal to 2 h-1 and a hydrogen molar ratio over :
. . ~ -.

.
.
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- 2 ~ 3 ~

hydrocarbons of charge equal to 4. The catalyst used in the unit of isomerization contains 0.3% of Pt deposited on a support composed of 80% mordenite with Si / AI ratio = 11 and 20% alumina. The effluent released from the isomerization unit to the composition given in Table 1; he ... not 5 contains very little benzene and has an octane number of 78.2 ~ ll can therefore be incorporated directly into the essence fractions after stabilization.

2 ~ 384 R ~ tormat Cut Cs Load Effluent out of Isom ~ risation isomérisatlon _ _iistillation light 6.5 1.0 3.7 4.6 iC5 9.918.9 14.4 18.8 nC5 7, 125, 4 16.25 12, 5 22DMC4 3.0 0.4 1.7 6.3 23DMC44, 11, 35 3.0 4.8 2MC5 15,811.1 13.45 17.6 3MC5 12.5 9.4 11.0 11.55 nC6 12,119.6 15 ~ 9 8 ~ 75 C7 3.5 4.4 3.9 1.9 CC5 0.4 1.4 0.9 0.9 MCC5 3, 64, 1 3, 85 9, 85 Benzene2 1.5 0.7 11.1 O.05 CC6__ O__ 1.75 0.85 _ 2 ~ _ RON80.3 65 72.9 78.2 Table I

Claims (6)

1 - Process for reducing the benzene content and for isomerizing paraffins in which isomerization of the mixture (a) of a load characterized by a weight composition in the following ranges:
? between 40 and 80% paraffins ? between 0.5 and 7% naphthenes ? between 6 and 45% aromatics and a maximum distillation temperature between 70 and 90 ° C, and (b) a C5-C6 cut, in the presence of an isomerization catalyst. 2 - Process according to claim 1 wherein the mixture comprises 20 to 80% of said charge. 3 - Method according to one of claims 1 to 2 wherein the catalyst of isomerization comprises a mordenite with an Si / AI ratio of between 5 and 50 and at least one group VIII metal. 4 - Process according to claim 3 wherein the metal of group VIII is chosen from the group formed by platinum, palladium and nickel. 5 - Method according to one of claims 1 to 4 wherein the isomerization is carried out according to the following operating conditions: the temperature is between 150 and 300 ° C, the partial pressure of hydrogen is between atmospheric pressure and 70 bar, the space speed is between 0.2 and 10 liters of charge per liter of catalyst per hour, and the molar ratio hydrogen on charge is between 0.5 and 10. 6 - Method according to one of claims 1 to 5 wherein the section is a C5-C6 cut from direct distillation.