CN1183398A - Process for preparing aromatic hydrocarbon from catalytic cracking tail gas in absence of oxygen - Google Patents

Process for preparing aromatic hydrocarbon from catalytic cracking tail gas in absence of oxygen Download PDF

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Publication number
CN1183398A
CN1183398A CN 96119574 CN96119574A CN1183398A CN 1183398 A CN1183398 A CN 1183398A CN 96119574 CN96119574 CN 96119574 CN 96119574 A CN96119574 A CN 96119574A CN 1183398 A CN1183398 A CN 1183398A
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Prior art keywords
catalyzer
reaction
tail gas
catalytic cracking
cracking tail
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CN 96119574
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CN1057988C (en
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徐奕德
舒玉瑛
姜辉
王林胜
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Dalian Institute of Chemical Physics of CAS
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Dalian Institute of Chemical Physics of CAS
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Abstract

In the process arene is prepared from catalytic cracking tail gas by aromatization reaction of methane in the absence of oxygen in the presence of catalyst Mo/HZSM-5, HZRP-1, HZRP-2, or HZRP-3 under conditions: temp. of 823-973 deg .K, pressure of 0.05-0.2 MPa and 1000-2000 ml/g.hr of space velocity of catalytic cracking tail gas. The active components of catalyst are Mo (0.5-30%), and Zr and Ru or W (0.1-5%).

Description

Catalytic cracking tail gas is made the processing method of aromatic hydrocarbons under oxygen free condition
The invention provides a kind of processing method that is used for oligomeric system aromatic hydrocarbons under the catalytic cracking tail gas oxygen free condition.This method can make catalytic cracking tail gas (dry gas) resource obtain more rational utilization.
The minimum response temperature that methane thermal changes into benzene is 1173K, is 1480-1580K (U.S. Pat P.4239658) and obtain 6~10% the needed temperature of reaction of benzene.Science153 (1966) 1393 in 1996 have reported the result of methyl hydride catalyzed synthetic aromatic hydrocarbons on silica-gel catalyst, obtain 4.2~7.2% aromatics yield under 1273K.In addition, the eighties, P.4507517 U.S. Pat reported methane at boron nitride (BN), and multi-functional complex metal oxides, supersiliceous zeolite support the result of methyl hydride catalyzed synthetic aromatic hydrocarbons on Pt-Cr and Ga catalyzer and the carbon fibre material.The application goes into once to have proposed in 1993 the aromatization technology (patent publication No. CN1102359A) that methane is fastened at Mo/HZSM-5 and Zn/HZSM-5 catalyst body.Utilize above-mentioned catalyzer, can make methane carry out the directly synthetic aromatic hydrocarbons of anaerobic dehydrogenation reaction, its methane conversion can be 7%.Thereafter the applicant has developed the two-pack modified ZSM-5 type zeolite catalyst of high reactivity and high stability again, methane conversion is greater than 9%, arenes selectivity still remains on more than 90% (Chinese patent application number 96115372.5) and adopts the molecular sieve of a kind of ZSM-5 of being different from, the oxygen-free aromatization reaction of methane on ZRP-1, ZRP-2 and the ZRP-3 catalyst series (Chinese patent application number 96115555.8).Contain a large amount of CH in the catalytic cracking tail gas (dry gas) 4And C 2~C 8Lower carbon number hydrocarbons etc. for effectively utilizing this resource, have particularly carried out a large amount of research to the low-carbon alkene that effectively utilizes wherein, are that the report of oligomerization system aromatic hydrocarbons under the prepared using oxygen free condition is few but directly split tail-gas with catalysis.
The objective of the invention is to propose the new process of a kind of catalytic cracking tail gas oligomeric system aromatic hydrocarbons reaction under oxygen free condition.Utilize this method, can make catalytic cracking tail gas react generation aromatic hydrocarbons under than low reaction temperatures (973K), provide a kind of new way for rationally utilizing catalytic cracking tail gas.
The catalytic cracking tail gas oxygen free condition of the present invention down processing method of system aromatic hydrocarbons improves on the basis of technology in early days and proposes, it remains the methane anaerobic aromatization catalysts that is used for that once proposed with the applicant makes catalytic cracking tail gas carry out the reaction of anaerobic aromatization as catalyzer, specifically, catalyzer is as active ingredient with the Mo metallic element, being supported on HZSM-5 or HZRP series divides and to give sieve and go up and obtain a kind of oligomerization under the catalytic cracking tail gas oxygen free condition being had very highly active catalyzer, but in this catalyzed reaction catalytic cracking tail gas under the temperature of 973K and oxygen free condition on catalyzer such as Mo/HZSM-5 and Mo-Me/HZSM-5 and Mo/HZRP-1 highly selective transform system benzene, toluene and combustion gas (main component is a methane), aromatics yield is up to 33.96%, and all the other are mainly CH 4, have only a spot of C 2, C 3And C 4Residual.The used molecular sieve of catalyzer specifically of the present invention comprises industrial former powder HZSM-5 and ZRP-1, ZRP-2 and ZRP-3 series molecular sieve.The activity of such catalysts component is Mo, add component and comprise Zr, Ru, W etc., catalyzer can be according to a conventional method with soaking altogether and the branch method of soaking prepares.It is 0.5~30% that Mo contains weight, and the best is between 2~20%, and it is 0.1~5% that the interpolation component contains weight, and the best is 0.1~3%.Mo and interpolation metal component exist with oxide form.
Above-mentioned catalyzer can activate 0.5~5 hour before use in the airflow under 400~700 ℃, to obtain higher activity and stable.Utilize this catalyzer to carry out catalysis and split virtueization reaction under the tail-gas oxygen free condition, reaction conditions: temperature of reaction is 823 973K, and reaction pressure is 0.05~0.2Mpa, and the tail gas air speed is when 1000~2000ml/g.hr.
Below by example technology of the present invention is given to illustrate further.
The performance of embodiment 1 Mo/HZSM-5 catalyzer
Use NH 4ZSM-5 soaks ammonium molybdate aqueous solution method preparation (metal content is 2%Mo), and catalyzed reaction is to carry out in the 7-8mm quartz tube reactor at continuously feeding fixed bed internal diameter, and the catalyzer loading amount is 0.2 gram.Catalyzer with air pre-treatment half hour, switches to catalytic cracking tail gas at 873K then, rises to 973K and begins reaction, react sampling analysis after 30 minutes, switches to air after the sampling and handles in 873K and heated up the unstripped gas reaction in 30 minutes again, is total to triplicate.Gas space velocity is 1800 a milliliters/gram hour, and reaction pressure is 1 normal atmosphere, and reaction product is being furnished with on-line analysis on the Shimadzu GC-9A gas chromatograph of 2 meters Propaka posts and hydrogen flame detector, is calculated by the CR3A totalizing instrument and provides the result.Table 2 has been listed the composition of catalytic cracking tail gas unstripped gas, and table 2 has been listed the reaction result (all representing with volume %, as follows) on the Mo/HZSM-5 catalyzer.
The composition of table 1. catalytic cracking tail gas
Component CH 4C 2H 4C 2H 6C 3C 4Others
Content 22.54 38.69 29.25 5.75 3.49 0.29
The oxygen-free aromatization reaction result of table 2. catalytic cracking tail gas on 3Mo/HZSM-5
Reaction times CH 4C 2H 4C 2H 6C 3C 4C 6H 6C 7H 8
(minute)
30 65.45 0.73 0.84 30.72 2.32
60 48.80 13.99 9.51 1.97 0.12 21.88 3.69
90 39.91 30.77 11.58 1.96 0.71 12.55 2.38
The performance of example 2 Mo-Zr/HZSM-5 catalyzer
Use NH 4The ZSM-5 branch soaks zirconium nitrate and ammonium molybdate aqueous solution method preparation (metal content is 2%Mo and 1%Zr), and catalyzed reaction is undertaken by the condition of example 1.Table 3 has been listed the reaction result on the Mo-Zr-HZSM-5 catalyzer.
The oxygen-free aromatization reaction result of table 3. catalytic cracking tail gas on Mo-Zr/HZSM-5
Reaction times CH 4C 2H 4C 2H 6C 3C 4C 6H 6C 7H 8
(minute)
30 61.18 2.63 3.49 0.21 29.35 3.14
60 48.84 14.03 9.26 2.05 0.09 22.38 3.34
90 37.96 32.87 9.86 3.04 0.78 11.52 3.98
The performance of example 3 Mo-Ru/HZSM-5 catalyzer
Use NH 4The ZSM-5 branch soaks ammonium molybdate and ruthenium trichloride aqueous process preparation (metal content is 2%Mo and 0.3%Ru), and catalyzed reaction is undertaken by the condition of example 1.Table 4 has been listed the reaction result on the Mo-Ru/HZSM-5 catalyzer.
The oxygen-free aromatization reaction result of table 4. catalytic cracking tail gas on Mo-Ru/HZSM-5
Reaction times CH 4C 2H 4C 2H 6C 3C 4C 6H 6C 7H 8
(minute)
30 70.30 0.27 0.13 28.00 1.30
60 57.58 4.17 3.62 0.45 0.12 29.11 4.85
90 56.50 10.04 5.81 1.36 23.33 2.93
The performance of example 4 Mo-W/HZSM-5 catalyzer
Use NH 4The ZSM-5 branch soaks ammonium molybdate and ammonium tungstate aqueous solution method preparation (metal content is 2%Mo and 1%W), and catalyzed reaction is undertaken by the condition of example 1.Table 5 has been listed the reaction result on the Mo-W/HZSM-5 catalyzer.
The oxygen-free aromatization reaction result of table 5. catalytic cracking tail gas on Mo-W/HZSM-5
Reaction times CH 4C 2H 4C 2H 6C 3C 4C 6H 6C 7H 8
(minute)
30 65.04 0.61 0.89 0.03 31.48 1.95
60 49.10 9.91 11.73 1.54 24.43 3.30
90 35.61 30.62 16.50 3.57 0.52 10.77 2.33
The performance of example 5 Mo/HZRP-1 catalyzer
Use NH 4ZRP-1 soaks ammonium molybdate aqueous solution method preparation (metal content is 20%Mo), and catalyzed reaction is undertaken by example 1.Table 6 has been listed the reaction result on the 20Mo/HZRP-1 catalyzer.
The oxygen-free aromatization reaction result of table 4. catalytic cracking tail gas on Mo-Ru/HZSM-5
Reaction times CH 4C 2H 4C 2H 6C 3C 4C 6H 6C 7H 8
(minute)
30 66.01 0.28 0.15 31.29 2.26
60 50.86 10.90 9.40 1.54 0.09 22.52 4.68
90 37.37 29.66 12.10 3.11 0.85 11.74 5.10
Comparative example 1
In order to reflect that truly catalyzer compares to the catalytic activity of catalytic cracking tail gas and with the activity of the traditional aromatization catalyzer Zn-HZSM-5 condition by example 1, experimental result is listed in the table 7, and method of the present invention as can be seen from the table has reacts initial activity preferably.Catalyzer CH 4C 2H 4C 2H 6C 3C 4C 6H 6C 7H 8Blank pipe 26.33 44.28 19.55 3.02 1.83 3.38 1.09 quartz sands 27.65 46.03 15.56 2.33 1.78 4.19 2.37HZSM-5 37.60 23.05 17.34 2.61 0.54 13.80 5.04Zn/HZSM-5 66.48 1.66 1.49 28.23 2.12

Claims (3)

1. a catalytic cracking tail gas is made the aromatic hydrocarbons reaction method under oxygen free condition, it is characterized in that
1) adopt oxygen-free aromatization reaction of methane to make catalyzer with catalyzer;
2) reaction conditions is: temperature of reaction 823~973K, reaction pressure 0.05~0.2MPa, catalytic cracking tail gas air speed 1000~2000ml/g.hr.
2. according to the described reaction method of claim 1, it is characterized in that catalyzer is Mo/HZSM-5, HZRP-1, HZRP-2 or HZRP-3 catalyzer, active ingredient Mo content is 0.5~30% of catalyzer.
3. according to claim 1,2 described reaction methods is characterized in that adding in the catalyzer Zr, Ru or W component, and it adds weight is 0.1~5% of catalyzer.
CN96119574A 1996-11-25 1996-11-25 Process for preparing aromatic hydrocarbon from catalytic cracking tail gas in absence of oxygen Expired - Fee Related CN1057988C (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106631658A (en) * 2016-11-28 2017-05-10 西安石油大学 Method for preparing aromatic hydrocarbon through dry gas

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4239658A (en) * 1979-04-05 1980-12-16 Exxon Research & Engineering Co. Catalysts for the conversion of relatively low molecular weight hydrocarbons to higher molecular weight hydrocarbons and the regeneration of the catalysts
CN1047104C (en) * 1993-11-04 1999-12-08 中国科学院大连化学物理研究所 Catalyzer for direct synthesis of aromatic hydrocarbon from methane and its application of in building-up reaction
CN1043421C (en) * 1993-12-12 1999-05-19 抚顺石油化工公司石油二厂 Technology process for preparing para-methyl-phenylethane by reaction of dilute ethylene and toluene

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106631658A (en) * 2016-11-28 2017-05-10 西安石油大学 Method for preparing aromatic hydrocarbon through dry gas

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