DE1280241B - Process for the production of acetylene and ethylene from a gas mixture obtained by thermal cracking of hydrocarbons - Google Patents

Description

Process for the production of acetylene and ethylene from one by thermal Cleavage of hydrocarbons obtained gas mixture The invention relates to a Process for the production of acetylene and ethylene from a reaction mixture which obtained by thermal cleavage of saturated or unsaturated hydrocarbons became.

Thereby a simplification of the procedure, the reduction the heat load and higher yields achieved.

For the separation of acetylene and ethylene from one containing these substances Gas mixtures are processes using a solvent for selective leaching of acetylene, for example dimethylformamide, butyrolactone, methylpyrrolidone, acetone, Methanol, ammonia, well known, said solvents absorbing acetylene and solve. This is usually followed by a common method for Separation of the ethylene applied. To separate the ethylene are the liquefaction when it is very cold and its absorption by hydrocarbons is well known. The mentioned Procedures are merely combinations of known procedures, and almost never can either Relationship between them can be established.

According to the invention, two completely independent measures are taken together linked to an absorption process using a single solvent to achieve as an advantageous object of the invention.

The fact was taken into account that the solvency of the Acetylene solvent for ethylene is much less than that for acetylene. But when the temperature is lowered, the acetylene solvent can be used satisfactorily Ethylene solvents can be used. So an acetylene solvent can be successful for the separation of acetylene and ethylene by absorption from one of these substances containing gas mixture are used.

The process of the invention for the recovery of acetylene and ethylene from a gas mixture obtained by thermal splitting of hydrocarbons, whereby first acetylene by absorption with the aid of a solvent selective for acetylene and then ethylene can be separated by absorption with the same solvent, is therefore characterized in that the absorption of ethylene at a 3- up to 10maul higher pressure and at a temperature 15 to 50 "C lower than that for the absorption of the acetylene applicable values is carried out that further stripped the ethylene from a solvent at about temperature or pressure is, in which acetylene is absorbed -and that also the solvent after to the Stripping off the acetylene used immediately as a solvent for ethylene will.

In practicing the invention, the acetylene is pressurized absorbed, the partial pressure of acetylene in the gas in relation to the absolute Pressure is maintained at 1.4 kg / cm2. This takes account of the fact that with higher pressure of the substance to be absorbed, the solubility increases. But when If the pressure exceeds a certain limit, there is a risk of explosion. on the other hand the absorption of ethylene is effected at a pressure of 30 to 40 atm. One the reasons for this is that Henry's law constant is considered to be the most appropriate pressure is assumed. If ethylene is also used with an acetylene solvent is absorbed at a lower temperature than acetylene, this is all the more effective, because ethylene is less soluble than acetylene, i. i.e., the absorption of ethylene can be carried out at a higher pressure and at a lower temperature than that of acetylene, so that ethylene with the help of the differences in pressure and temperature can be separated and purified when both acetylene and ethylene are absorbed should be. For example, acetone is used to absorb acetylene. The remaining gas becomes ethylene at a temperature of - 50 "C and a Pressure of 40 at absorbed, and if then the solution containing the ethylene on 0 ° C and 10 at, the escapes larger part of the ethylene from the acetone, which can then be used directly for the absorption of acetylene can. The ethylene remaining in the acetone becomes during the absorption of the acetylene driven off so that it can be recovered in the ethylene absorption stage and not get lost.

The acetylene dissolved in the acetone is desorbed when the acetone solution is heated to its boiling point, and the acetone can after complete degassing and cooling can be reused as an absorbent for ethylene. On a in this way both ethylene and acetylene can be separated. on the other hand the solvent is cycled to separate acetylene and ethylene of low and high temperatures in a single work cycle. There is only one Solvent can be used in two stages of the process, it is obvious that the device can be simplified considerably.

The invention is described in detail below with reference to the drawing explained in more detail, the one embodiment of a device for performing the Represents method of the invention.

According to the drawing, the gas to be separated is shown, if necessary beforehand can be dried in a known manner and freed from carbon dioxide gas by the line 1 is fed and with that through the line 17 from the acetylene separator 13 coming gas mixed.

The gas mixture is compressed by the compressor 2 to such an extent that the partial pressure of acetylene does not exceed 1.4 kg / cm2. After that it will be in passed the acetylene absorption tower 3 in which the pressure is usually 8 to 15 atm. The solvent coming from the ethylene separator 10, from which the greater part of the ethylene has been removed, passes through line 11 to the upper part of the Tower 3, in which the solvent flows against the gas to be separated and the all acetylene absorbed.

At the same time, the solvent dissolves small amounts of in the gas mixture gases present, such as higher acetylenes, methane, and hydrogen, are present in the solvent are slightly soluble. The solution leaving the bottom of the tower 3 is through the Line 12 is conveyed into the acetylene pre-separator 13, the pressure being approximately is brought to normal pressure and the sparingly soluble gases by gentle heating and ethylene escape at the top of the tower. In this case, the acetylene concentration of the gas at the top of the tower can be reduced by allows a small amount of solvent to flow from the top of the tower. This gas still contains small amounts of acetylene and is withdrawn through line 17 and mixed with the gas to be separated.

The solution located at the bottom of the tower 13 is through the line 14 conveyed into the acetylene separator 15, in which they are brought to the boiling point of the solvent heated under normal pressure and degassed and regenerated in the process. After that she will cooled in the cooler 21 to a predetermined temperature and put in the ethylene absorption tower 6 promoted. Acetylene and higher acetylenes are expelled from the top of the tower 13. On the other hand, the upper part of the acetylene absorption tower 3 becomes that of acetylene The freed gas is conveyed through the line 4 to the compressor 5 and with the ethylene pre-separator 8 through line 22 leaving gas mixed. The gas mixture is in the compressor 5 in one Compressed pressure that is 3 to 10 times the acetylene absorption pressure, and then let into the ethylene absorption tower 6. To the upper part of the tower 6 the solvent is conveyed from the bottom of said acetylene separator 15, after it has been cooled to a predetermined temperature in the cooler 21, the lower than the ethylene absorption temperature, around 15 to 50 "C.

All of the ethylene is dissolved in the tower 6, and the poorly soluble Gases such as methane, hydrogen, etc. escape through line 18. Those containing ethylene Solution is passed through line 7 in the Äthylenvorabscheider 8, in which the The pressure is partially reduced or the temperature is increased to avoid the poorly soluble Remove gases with a little ethylene. Ethylene can be retained if one allows a small portion of the solvent to flow down from the top of the tower. The sparingly soluble gases that still contain ethylene are released from the top of the Tower 8 conveyed through the line 22 to the line 4, in which they are with the gas from the upper part of the acetylene absorption tower. The swamp solution is kept at a pressure and a temperature which is about the conditions in Acetylene absorption tower and passes through line 9 into the ethylene stripper 10, taking a greater part of the ethylene from the top of the tower through the conduit 19 escapes. The sump solution still contains ethylene in a dissolved state and can be used as a solvent in the Acetylenabsorpti onsturm so that no Loss arises. 23 is a solvent reservoir that can be used at any time Dimensions can be fed. The gases acetylene and ethylene obtained according to the invention still contain small amounts of impurities. It is evident, however, that this can be removed by a known method. In particular, can higher acetylenes from the acetylene-containing gas by scrubbing or prior to acetylene absorption by a small amount of a common solvent or hydrocarbon removed.

Example By using a regenerative cracking furnace and propane As a raw material (200 m2 / hour), a gas with the following composition was obtained: Acetylene .................. 9.5 Carbon dioxide .................. 1.2 Ethylene ..... .............. 12.2 nitrogen ................... 8.3 hydrogen. . . . . 41.0 methyl acetylene .. 0.37 methane 19.2 diacetylene. . . . . . 0.07 carbon monoxide. . 4.4 For removal of the carbon dioxide, these gases were washed with an aqueous sodium hydroxide solution, then dried with silica gel and left with the acetylene separator Mixed gas.

The gas mixture was compressed to 10 atm with the aid of the first compressor and then brought into contact with acetone in countercurrent in the acetylene absorption tower, that in an amount of 700 1 / hour. came from the ethylene separator, with the entire Acetylene was absorbed. The acetylene containing solvent was then in the acetylene pre-separator is conveyed in which it is at normal pressure and a temperature of 20 ° C was brought. In the process, 23 m3 of gas were formed, which at 100 l / hour.

Acetone was washed at the top of the tower. the composition of the gas withdrawn from the top of the tower was as follows: Acetylene ....... 26.7 Methane ........... 14.1 ethylene 48.5 carbon monoxide. 1.3 hydrogen. . . . . 5.1 Nitrogen. . . . . . . 2.5 This gas was used for the raw material mentioned Mixed reuse. The solution at the bottom of the acetylene pre-separator tower was conveyed into the acetylene separator and at its bottom to a temperature of Heated to 56 ° C and freed from gases to recover the solvent. The recovered Acetone was cooled and used as an ethylene absorption solution. To this Way were 19.2 m8 / h. Acetylene obtained with 97% purity at the top of the tower. On the other hand, those were leaving the top of the acetylene absorption tower Gases mixed with the gas from the ethylene pre-separator and after compression in the second compressor to 45 at then conveyed into the ethylene absorption tower, in which it in countercurrent contact with 700 1 / h. Acetone was brought to -50 ° C. That Gas fed to the ethylene absorption tower had the following composition: ethylene .......... 18.6 carbon monoxide. 6.0 hydrogen 42.3 nitrogen. . . . . . . 8.0 Methane .... ... 23.5 At the top of the ethylene absorption tower, 145 m3 / h. Gas withdrawn with the following composition: hydrogen ..... 53.2 carbon monoxide . 6.2 methane ........ 26.3 nitrogen. . . . . . . 11.4 Those containing ethylene Solution was then fed into the ethylene pre-separator and pressurized to 30 at and a temperature of - 38 ° C.

By flowing down acetone at 100 l / h. from the top of the Tower, a gas mixture of the following composition was obtained: ethylene 58.0 nitrogen . . . . . . . 4.9 methane .......... 23.5 hydrogen. . . . . 9.3 carbon monoxide . 2.4 This gas became with the gas from the top of the acetylene absorption tower mixed and put back into circulation. The sump solution from the pre-separator was brought to 0 ° C and 10 atm in the ethylene separator, whereupon the upper part of the tower 23 m5h. Ethylene with 96% purity were obtained.

Claims (1)

Claim: Process for the production of acetylene and ethylene from a gas mixture obtained by thermal splitting of hydrocarbons, whereby first acetylene by absorption with the aid of a solvent selective for acetylene and then ethylene can be separated by absorption with the same solvent, d a d u r c h characterized that the absorption of ethylene at a 3 to 10 times higher pressure and at a temperature 15 to 50 ° C lower than that for absorption of the acetylene is carried out to ensure that the ethylene continues stripping the solvent at about temperature or pressure which acetylene is absorbed and that further the solvent after stripping of acetylene is used directly as a solvent for ethylene. Documents considered: German Patent No. 953 700; FChemical Engineering Progress ", Vol. 56, 1960, pp. 53, 54.