Method of producing dimethyl sulfite

Organic compounds -- part of the class 532-570 series – Organic compounds – Sulfite esters

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

Reexamination Certificate

active

06423861

ABSTRACT:

The present invention relates to a process for the preparation of dimethyl sulfite from a higher dialkyl sulfite or a cyclic alkylene sulfite and methanol.
A conventional process for the preparation of dialkyl sulfites, in particular of dimethyl sulfite, is the reaction of thionyl chloride with an alcohol, in the case of dimethyl sulfite, with methanol. The preparation of dimethyl sulfite by such a reaction is described, for example, in W. Voss et al., Justus Liebigs Ann. Chem. 485 (1931), 258-283.
However, the reaction with thionyl chloride has the disadvantage that large amounts of hydrogen chloride are formed in the reaction, which means that the materials used have to meet particular requirements with regard to corrosion. If the hydrogen chloride is not removed sufficiently rapidly from the reaction mixture, it undergoes a secondary reaction with the dialkyl sulfite formed to give alkyl chloride, alcohol and sulfur dioxide.
It is also known that dialkyl sulfites and cyclic alkylene sulfites can undergo with alcohols transesterification reactions in which transesterified alkyl sulfites corresponding to the alcohols used are formed. This transesterification reaction is an equilibrium reaction. It is catalyzed by acids and bases but takes place at elevated temperatures even without a catalyst.
R. Riemschneider et al., Z. Naturforschung 15 b (1960), 552-554, describe the preparation of a cyclic sulfite, of 2-butene-1,4-diol, by reacting dimethyl sulfite with the corresponding diol. To shift the equilibrium of the reaction toward the desired product, methanol formed is removed continuously by distillation.
H. F. van Woerden, Chem. Rev. 93 (1963), 557-571, describes the transesterification of dimethyl sulfite with ethylene glycol to give ethylene sulfite and methanol without a catalyst. To obtain ethylene sulfite in good yields the methanol formed is removed continuously to shift the resulting equilibrium toward the product.
Such a procedure is possible only when the alcohol forming has a lower boiling point than the alcohol used.
In the preparation of dimethyl sulfite by reacting cyclic alkylene sulfites, the alcohol used is methanol. The alcohol forming therefore always has a higher boiling point than the methanol used. In the case of an equilibrium shift by means of distillation, as described in the literature, the methanol would first be removed and thus the reverse reaction to the starting materials would be promoted, instead of the shift of equilibrium toward the product.
It is an object of the present invention to provide a process for the preparation of dimethyl sulfite—starting from cyclic alkylene sulfites—in which dimethyl sulfite can be obtained in good yields and in high purity.
We have found that this object is achieved by a process for the preparation of dimethyl sulfite by transesterification of a cyclic alkylene sulfite of at least 2 carbon atoms with methanol, in the presence or absence of a catalyst. The novel process is carried out continuously in a column.
The novel process has the advantage that hydrogen chloride which can attack the materials used and can react with the product formed is not formed, in contrast to the reaction of thionyl chloride with alcohols. The resulting alcohol can be further used for various applications.
The novel process is preferably carried out by the countercurrent method, methanol being added in the lower part of the column and flowing countercurrent to cyclic alkylene sulfite added in the upper part of the column.
The higher alcohol liberated and corresponding in the transesterification to the cyclic alkylene sulfite used is taken off continuously via the bottom of the column, and the resulting dimethyl sulfite is taken off continuously, together with unconverted methanol, via the top of the column.
The cyclic alkylene sulfite is referred to below as starting sulfite.
The alcohols liberated are diols.
The column in which the transesterification is carried out may be either a tray column or a packed column. Preferably, the column is a tray column, for example a bubble tray column.
The starting sulfite is generally metered in as a liquid in the upper part of the column.
The novel process is preferably carried out in the presence of a catalyst in order to accelerate the transesterification. Said catalyst is particularly preferably soluble in the starting sulfite used. Consequently, the catalyst can be added to the starting sulfite used and introduced together with said sulfite into the column. A particularly preferred catalyst is methanesulfonic acid.
With a sufficient residence time on the trays of the column, a catalyst can be dispensed with.
For simple metering, the catalyst is dissolved in the starting sulfite. The methanol used for the transesterification is generally metered in as a vapor in the lower part of the column.
The starting sulfite and methanol are generally added to the column in a molar ratio of 1 to at least 2. Methanol is preferably used in a stoichiometric excess of 5-20:1, particularly preferably of 10:1. The unconverted methanol is then preferably recycled to the process.
Essentially the diol liberated from the corresponding starting sulfite after the transesterification is present in the bottom of the column. In addition, the bottom product may contain small amounts of condensates of the diol, and any catalyst used.
The dimethyl sulfite (reaction product) is obtained at the top of the column together with unconverted methanol, generally in gaseous form.
The dimethyl sulfite obtained is preferably separated in a second column from the simultaneously obtained methanol. The product stream, containing dimethyl sulfite and methanol, is transferred in liquid form or preferably in gaseous form to the second column. The second column may be a tray column or packed column.
The second column is generally operated at a top pressure of from 100 mbar to 5 bar, preferably from 500 to 1000 mbar, particularly preferably at 800 mbar.
The bottom temperature in the second column at 800 mbar is from 100 to 110° C. and the reflux ratio is adjusted so that the top temperature is from 55 to 60° C.
Methanol is obtained at the top of the second column and is preferably recycled to the first column. The methanol is preferably recycled in vapor form in order to save energy. The first and the second columns are preferably connected to one another via feed lines.
In a particularly preferred embodiment, the novel process is carried out in a column system (see the FIGURE), comprising:
a first column (K
1
) in which the novel transesterification is carried out, and
a second column (K
2
) in which the mixture of dimethyl sulfite and methanol, obtained at the top of the first column, is separated, wherein
the first column has a feed for the starting sulfite and, if required, the catalyst (
1
), which leads into the upper part of the column, a feed for methanol (
2
), which leads into the lower part of the column, and an outlet for the diol, catalyst and any condensates of the diol (
3
) which are obtained in the bottom, and
a connection from the top of the first column to the middle part of the second column is present, through which the mixture of dimethyl sulfite and methanol is fed to the second column, wherein
the second column has an outlet for dimethyl sulfite (product) (
4
) obtained in the bottom, and
a connection from the top of the second column to the lower part of the first column, through which the excess methanol obtained at the top of the second column can be recycled to the first column.
The metering of fresh methanol into the first column is preferably controlled by means of the temperature profile in the lower region of the second column. If the temperature in the lower region of the second column increases by too much, this means that there is insufficient methanol in the column system and the amount of methanol must be adjusted accordingly.
The preferably used cyclic alkylene sulfite is one of 2 to 6, particularly preferably 2 to 4, carbon atoms. Ethylene sulfite and propylene sulfite are very particularly preferably u

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Method of producing dimethyl sulfite does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Method of producing dimethyl sulfite, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method of producing dimethyl sulfite will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2909571

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.