前苏联专利SU1301306A3 Method for producing once unsaturated hydrocarbons c3-c5

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专利摘要:
The invention relates to the petrochemical production of aliphatic unsaturated hydrocarbons, in particular, the method of producing once-saturated hydrocarbons C, -Cj by hydrogenating a feed mixture containing Cj-Cj-aTOMOB carbon hydrocarbons with one double bond, conjugated and / or cumulated double bonds mi and / or acetylenic triple bonds on a catalyst containing 0.1-2.0 wt.%. palladium on alumina or active carbon in the presence of carbon monoxide. In order to increase the yield of the target product (by preventing the isomerization of a double bond), an initial mixture containing 0.00004-0.001% by weight of dissolved carbon monoxide and 1.01-1.98-fold (stoichiometric) amount of dissolved hydrogen is used, and hydrogenation carried out at 0-75 ° C and pressure, ensuring that the initial mixture is in the homogeneous liquid phase. When hydrogenating the initial mixture containing 48.2% by weight of butene-1 and butadiene, butin and butenin, respectively, in quantities of 5140, 56 and. 12 ppm, receive a product with a butene-1 content of 48.4 wt.% And butadiene, butine and butenine, respectively, 4, 1 and 1 ppm. 10 tab. CO SA) About About cm
公开号:SU1301306A3
申请号:SU823507321
申请日:1982-11-02
公开日:1987-03-30
发明作者:Обенаус Фритц；Нирлих Франц；Рейтемейер Отто；Шольц Бернхард
申请人:Хемише Верке Хюльс Аг (Фирма)；
IPC主号:

专利说明:

f13013062
The invention relates to a petrochemical industry. The goal is achieved in minutes, specifically to a method for producing a hydrogenation of the initial mixture, pure hydrocarbons, in particular, containing 0.00004-0.001% by weight of the solution, to a method for producing singly carbon monoxide and 1 , 01-1.98-unsaturated hydrocarbons are hydro-5-fold stoichiometric by quantitating mixtures of unsaturated coal with dissolved hydrogen at pressure-hydrogens, ensuring that the process is carried out in a homogeneous liquid phase.
The aim of the invention is to improve the invention. The invention is illustrated by the following yield of the desired product due to examples in which prevention of the isomerization of a double mixture of hydrocarbons indicated in the connection table is used. I and 2 composition.
Table 1

l-
2
l-
silt

0.028
21.5
0.072
48.4
14.2
15.6
0.196
0.032
21.6
0.082
48.2
14.1
15.5
0.514
0.040
22, it
0.110
53.9
8,8
14.7
0.261
1.2 0.3 0.180
0.620 0.130 13.0
37.4
26.8 19.5 0.073
0.0056 0.0056 0.0030 0.058
0.0012 0.0012 0.0025 0.512
0.2
0.040
22, it
0.110
53.9
8,8
14.7
0.261
1.2 0.3 0.180
0.620 0.130 13.0
37.4
26.8 19.5 0.073
0.2
Propen93,3
Propadien 0.21
Propine (methyl acetylene) 0.15
Pentane
Penten
Isoprene
PRI mery s 1-5.
In the mixture specified in the table. 1 composition dissolves 85 ppm of hydrogen (1.12 times the stoichiometric amount) and is given in Table. 3 amount of carbon monoxide. The mixture of hydrocarbons (water content ppm)
Before hydrogenation
After hydrogenation
At-Temp-Concentration of a measure of carbon dioxide hydroxide, Kiac.%
table 2
5.68 81.9
12.4
subjected to hydrogenation under the following conditions in which there is a homogeneous liquid phase: the temperature is indicated in Table. 3; flow rate 35 l / l cat h; pressure 1.3 MPa; catalyst 0.5 wt.% Pd on,. The results of the experiments are summarized in table. 3
Table 3
1960 56 12 48.4 (0.196 (0.0056 (0.0012 wt.%) Wt.%) Wt.%)
Example 6. In the mixture of hydrocarbons listed in table. 1 formulation, 210 ppm hydrogen (1.08-fold stoichiometric amount) and 0.00042 wt.% Carbon monoxide are dissolved. 5 A mixture of hydrocarbons (water content
Comparative experience 1.
Example 6 is repeated with the difference that the process is carried out under a pressure of 0.7 MPa. In addition, the reaction mixture does not exist as a homogeneous liquid phase. A product containing 45.4% by weight of butene-1, 15.9% by weight of cis-butene-2, 16.5% by weight of trans-butene-2, 21.9% by weight of n-butane is obtained. In addition, it contains another 0.205 wt.% The original butadiene-1,3.
Comparison of the results of comparative experience 1 and example 6 shows that only in the presence of a homogeneous liquid phase is it possible to ensure a greater degree of prevention by hydration
hydrogenation
/
CO concentration, wt.%
0,00006
0,00018
5140
(0.154
wt.%)
one
2
-i 5 ppm) is hydrogenated under the following conditions in which the homogeneous liquid phase is present: temperature 55 ° C; flow rate 35 l / l cat. h; pressure 1.3 MPa; catalyst 0.5 wt.% Pd on A120.J. The results of the experiment are summarized in table 4. Table 4
five
0
five
The isomerization of a double bond while simultaneously exiting the product.
Examples 7.8. In a mixture of hydrocarbons specified in the table. 1 composition dissolves 210 ppm of hydrogen (1, 08 times the stoichiometric amount) and indicated in table. 5 amount of carbon monoxide. The mixture of hydrocarbons is subjected to hydrogenation under the following conditions, in which there is a homogeneous liquid phase: temperature 21 ° C; flow rate 35 l / lh; pressure 1.3 MPa; catalyst O, 5 wt.% Pd on A1,0 ,.
The results of the experiments are summarized in table.5.
Table 5
56 12 48.2 (0.0056 (0.0012 wt.%) Wt.%)

il
one
48.3 48.4
Examples 9-11. In the mixture of hydrocarbons indicated in the table. 1 composition dissolve indicated in table. 6 amounts of carbon monoxide and hydrogen and the mixture is hydrogenated under the following conditions,
Before hydrogenation
After hydrogenation

multiple stoichiometric amount; multiple stoichiometric amount; multiple stoichiometric amount.
Examples 12-14. In a mixture of hydrocarbons specified in the table. 1 composition dissolved 205 ppm hydrogen (G, 06-fold stoichiometric amount) and 0.00006 wt.% Carbon monoxide. The mixture is subjected to hydrogenation. Before hydrogenation
After hydrogenation
Pressure, MPa measures.
1.0 1.5 1.8
in which there is a homogeneous liquid phase: temperature 40 ° C; flow rate 21 l / l | cat. h; pressure 1.3 MPa; catalyst 0.5 wt.% Pd on active carbon. The results of the experiment are summarized in table 6. Table 6
thirty
(0,0030
wt.%)
25
(0,0025
wt.%)
53.9
35
under the following conditions in which there is a homogeneous liquid phase: temperature 21 ° C; flow rate 35 l / l cat h; pressure is specified in tab. 7; catalyst 0.5 wt.% Pd on Al Os The results of the experiment are summarized in table 7.
Table 7
5140 56 12 48.2 (0.514 (0.0056 (0.0012 wt.%). Wt.%) Wt.%)
eleven
eleven
one
48.5 48.4 48.5
9130130610
Example 15. For hydrogenation, the ratio of the recycled amount of repeatedly unsaturated compounds to the supplied amount is C4 TO butane and repeatedly unsaturated is 49: 1. The total flow rate in the circulation reactor is 68 l / l 5) (cat. H; In the mixture withdrawn from the circulation reactor, 250 h / ppm is dissolved (thus, the total amount of hydrogen is 1.01 times
Cj compounds to propene in a mixture
specified in the table. Composition 1 (about 21% of the compounds to be hydrogenated) has a stoichiometric amount of hydrogen of 8135 ppm. In this mixture of hydrocarbons, 1 h / ppm of 0.0001% by weight of carbon monoxide is dissolved. The mixture is first fed to a circulation reactor. 7980 ppm of Hj are supplied to the circulating stream, in terms of total
stoichiometric amount), and the mixture is dehydrated in an additional reactor at 25 C and 1.3 MPa with a total flow rate of 27 l / l cat. No carbon monoxide is added before the additional reactor. In both steps, the reaction mixture is dissolved homogeneously. The hydrogen-containing mixture of the hydri-5 mixture is homogeneously liquidized at 25 ° C and 1.3 MPa in the catalyzed state.
torus containing 0.5 wt.% Pd on,. The results of the experiment are summarized in table 8.
Table8
The concentration of butene-1 increases from 37.5 wt.% In the initial mixture to 48.6 wt.% In the product, and the concentration of the propel varies from 0.3 to 1.1 May. 7.
Example 16. In the mixture of hydrocarbons specified in Table. 2 formulations dissolved 195 ppm hydrogen (1.07-fold stoichiometric amount) and 2.5 ppm 0.00025 wt.% Carbon monoxide. The mixture of hydrocarbons is subjected to hydrogenation under the following conditions, in which there is a homogeneous liquid phase: temperature 45 ° C; flow rate 40 l / l cat h; pressure 0.3 MPa; Catechizer 0.1 wt.% Pd on AljOj.
The results of the experiment are summarized in table.
That blitz 9
The ratio of the recycled amount to the supplied quantity is
ABOUT
puts 49: 1. The total flow rate in the circulation reactor is 68 l / lx 5) (cat. H; 250 h / ppm is dissolved in the mixture withdrawn from the circulation reactor (thus, the total amount of hydrogen is 1.01 times the stoichiometric amount ), and the mixture is dehydrated in an additional reactor at 25 C and 1.3 MPa with a total flow rate of 27 l / l cat. h. Before the additional reactor carbon monoxide is not added. At both stages, the reaction mixture is in a homogeneous liquid state .

0
five
The hydrogenation product also contains 6.35 wt.% Propane.
Thus, p.propadiene and propyne are almost quantitatively hydrogenated to propene.
Comparative experience I1. Example 16 is repeated with the difference that the process is carried out at a pressure of 1.6 MPa at which there is no homogeneous liquid phase. A product of the composition is obtained, wt%: 6.42 propane, 93.4 propene, 0.11 propadiene, and 0.07 propen.
A comparison of the results of comparative experiment 11 and example 16 shows that, in the absence of a homogeneous liquid phase, approximately half of the propadiene and propyne are hydrogenated to propene and, moreover, the initial content of propane is increased.
Example 17. For hydrogenation of multiply unsubstituted compounds C to pentenes in a mixture of hydrocarbons indicated in Table. 2 of the composition (about 12% by weight of the compounds being hydrogenated) the stoichiometric amount of hydrogen is 3,680 ppm. In this mixture
1.2 ppm is dissolved with 0.00012 wt.% carbon monoxide. The mixture of hydrocarbons is fed to a circulating reactor at 28 ° C and a pressure of 1.8 MPa. 3800 ppm N, in terms of the fresh mixture, are introduced into the circulation stream and then homogeneously dissolved in it. The hydrogen-containing mixture is subjected to hydrogenation on a catalyst containing 2.0 wt.% Pd on, with a total flow rate of 23 l / l cat. H. Under these conditions, there is a homogeneous liquid phase. The ratio of the recycle quantity to the feed amount is 26: 1. The flow rate of the fresh mixture to be added is 0.9 l / l cat. Without additional hydrogenation in an additional reactor, the results are summarized in table. ten.
Table 10
- Thus, isoprene is almost quantitatively hydrogenated to pentenes. Comparative test 111. Example 17 is repeated, with the difference that process 35 is carried out at a pressure of 1.0 MPa. With
Compiled by N. Kirillov. Editor A. Dolynich Tehred V. Kadar Corrector N. Korol
Order 1163/58 Circulation 372Subscription
VNIIPI USSR State Committee
for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
Production and printing company, Uzhgorod, st. Project, 4
About -5
0
five
five
this homogeneous liquid phase does not exist. Get the product of the following composition, wt.%: Pentane 8.35, isoprene 6.43 and pentene 85.2.
A comparison of the results of comparative experiment 111 and Example 17 shows that in the absence of a homogeneous liquid phase, only about half of isoprene hydrogenates to pentenes and, moreover, the initial content of pentane is increased.

权利要求:
Claims (1)
[1]
Invention Formula
The method of obtaining single unsaturated hydrocarbons by passing the initial mixture containing in the liquid phase corresponding hydrocarbons with one double, with conjugated and / or cumulated double bonds, and / or acetylene triple bonds and hydrogen in the presence of carbon monoxide over a fixed catalyst bed 0.1-2.0% by weight of palladium on alcine oxide or active carbon, distinguished by the fact that, in order to increase the yield of the target product, use is made of an initial mixture containing dissolved carbon monoxide in an amount of 0.00004- 0.001 wt.% And dissolved hydrogen in the amount of 1.01-1, 98 times stoichiometric, and the process is carried out at a temperature of 0-75 s and pressure, ensuring that the initial mixture is in the homogeneous liquid phase.

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

DE19813143647|DE3143647A1|1981-11-04|1981-11-04|METHOD FOR SELECTIVELY HYDROGENATING MULTIPLE UNSATURATED HYDROCARBONS IN HYDROCARBON MIXTURES|

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