Organic compounds -- part of the class 532-570 series – Organic compounds – Halogen containing
Reexamination Certificate
2002-05-22
2004-02-17
Vollano, Jean F. (Department: 1621)
Organic compounds -- part of the class 532-570 series
Organic compounds
Halogen containing
C570S251000
Reexamination Certificate
active
06693224
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a process for the production of 1,2-dichloroethane, hereinafter referred to as “EDC”, which primarily serves as an intermediate product in the production of monomer vinyl chloride, hereinafter referred to as “VCM”, which, in turn, is used to produce polyvinyl chloride (PVC), and the invention also relates to a facility for running the said process.
SUMMARY OF THE INVENTION
Hydrogen chloride (HCl) is obtained when EDC is reacted to produce VCM. Hence, the preferred method of producing EDC from ethene (C
2
H
4
) and chlorine (Cl
2
) is such that a balance is maintained between the hydrogen chloride (HCl) produced and consumed in the various reactions, which is substantiated as follows:
Cl
2
+ C
2
H
4
→
C
2
H
4
Cl
2
(EDC)
+
180 kJ/Mol
(1)
C
2
H
4
Cl
2
(EDC)
→
C
2
H
3
Cl (VCM)
+
HCl
−
71 kJ/Mol
(2)
C
2
H
4
+ 2HCl +
→
C
2
H
4
Cl
2
(EDC)
+
H
2
O
+
238 kJ/Mol
(3)
½O
2
The step of the production process that refers to reaction (1) is hereinafter called “direct chlorination”, the step that refers to reaction (2) is called EDC cracking and the step that refers to reaction (3) is called oxihydrochlorination. The whole production process is hereinafter referred to as “balanced process” provided the HCl obtained by EDC cracking is completely consumed in the oxhydrochlorination unit.
Direct chlorination is usually carried out in a loop reactor which is available in various types of design. Such a process is for instance described in DE 43 18 609 A1. Many years of practical experience have shown that the purity of the EDC produced is of major importance for the cost effectiveness and the final product purity which can be achieved for the VCM obtained by reaction (2) and consequently for the complete process. This gave way to many attempts to minimise the side reactions related to reaction (1).
A very successful attempt was the reduction of the reaction temperature which, however, involved the disadvantage that the reaction heat developed at a relatively low temperature and thus could not be adequately exploited in the EDC production process. The reaction heat thus became waste heat and the specialists involved finally decided to discard this way of minimising the side reactions in connection with reaction (1).
The heat exploitation measures in the balanced process are of major economical and ecological importance. DE 41 31 576 A1, for example, describes a rather expensive method for the recovery of the heat contained in EDC vapours. The EDC feed required for an equilibrated balance is produced according to reaction (1) at temperatures ranging from 75 to 100° C., by boiling the EDC, condensing the vapours and causing the condensed vapour stream to return to the reactor, the product being withdrawn before. Another approach involved the separation of heat from the liquid EDC circulated in the reactor. The refrigeration capacity required to condense the vapours from the EDC reactor and/or the liquid EDC circulated in the reactor amounts to approx. 420 kWh per tonne of produced VCM. If liquid chlorine is used as feed product,the heating capacity required to evaporate the chlorine is 35 kWh per tonne of produced VCM.
The EDC from the oxihydrochlorination or from the direct chlorination, if any, as well as the unconverted EDC from the EDC cracking must undergo distillation, as the EDC used as feedstock for EDC cracking must be of ultrahigh purity. The distillation usually takes place in distillation columns, water and light ends being separated in a dehydration or light ends column and heavy ends being removed in one or two columns which are called heavy ends or vacuum columns. The amount of steam required to operate these distillation columns is approx. 513 kWh per tonne of produced VCM, provided the EDC from the direct chlorination and oxihydrochlorination as well as the unconverted EDC portion from the EDC cracking are distilled simultaneously. Should a distillation of the EDC from the direct chlorination not be necessary, as the reaction conditions can be adjusted such that the EDC purity required for EDC cracking is reached without distillation, the amount of steam required for treating the remaining EDC portion drops to 385 kWh per tonne of produced VCM.
Some of the processes suggested provided for the exploitation of the complete reaction heat produced in the direct chlorination by condensing the vapours from said chlorination in order to heat the heavy ends column and the vacuum column. The relatively high reaction temperature required for direct chlorination in such a case, however, reduces the yield of this type of process (referred to the feedstock chlorine and ethene) and it also deteriorates the quality of the EDC from the direct chlorination so that there is a need for an intensified distillation which adversely affects the economic efficiency.
Processes with the aim to improve the operational efficiency of columns with the aid of vapours compression have already been described. Patent FR 2 578 537 A1, for example, provides for a process using the heat released from the vapours compression inside an EDC heavy ends column for heating the bottom of said column.
Patent EP 0 131.932 A1, for example, provides for a process using the heat released from the vapours compression inside an EDC heavy ends column for heating the bottom of said column and/or for heating the light-ends column.
The above mentioned document DE 41 31 576 A1 describes a process using the vapours of heavy ends separating column for powering the bottom heating system of the dehydration column.
Patent EP 0 180 925 B1 describes another process by which vapours from the heavy ends separating column of a VCM production plant are compressed and used for heating the bottom of the column. This document also sets forth the necessity to check the system as to whether further reactions take place during the compression phase, thus causing EDC contamination or maloperation of the compressor.
In contrast to the present invention, the above mentioned technologies use the vapours from the purifying columns and not those from the direct chlorination reactor.
The aim of the process according to the invention, therefore, is to use the reaction heat obtained in the direct chlorination although the reaction temperature is low.
This aim can be achieved by a process and a facility specified in the preceding paragraphs of this invention, the vaporous EDC from the direct chlorination reactor being compressed and then piped to heat exchangers for heat recovery.
This measure has proven to be a suitable method for lowering the reaction temperature in the direct chlorination unit to a level that permits piping the EDC produced in said unit to the EDC cracking unit without any further distillative treatment, which precludes the disadvantage that reaction heat is obtained at a temperature level inappropriate for any further use of the heat. The compression will in fact raise the temperature of the compressed EDC as well as the EDC condensation temperature so that the condensed EDC can be used at a temperature higher than that of the direct chlorination.
Further embodiments of the process according to the invention can be seen in sub-claims. They provide especially for the compressed vapours to be fed to the evaporator of a light ends or dehydration column and/or the evaporator of a heavy ends column and/or the evaporator of a vacuum column and/or the chlorine evaporator upstream of the direct chlorination reactor. As the invention has the advantage that the reaction heat of 420 kWh per tonne of VCM produced in the direction chlorination unit corresponds almost exactly to the total demand of heating energy required for the operation of the distillation columns (385 kWh per tonne of produced VCM) and the chlorine evaporation (35 kWh per tonne of produced VCM), the invention provides a concept for the specialist to distribute the reaction heat among the consumers mentioned and to restrict the use of imported energy to the amount need
Marshall & Melhorn LLC
Uhde GmbH
Vollano Jean F.
LandOfFree
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