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Integral supported carbon molecular sieve catalyst, preparing method and applications thereof

A carbon molecular sieve, integrated technology, applied in the field of methanol dehydration to dimethyl ether synthesis, can solve the problems of complex equipment, large bed temperature difference, low space velocity, etc., and achieves reduction of growth times, high production efficiency, and good low temperature activity. Effect

Inactive Publication Date: 2009-12-02
ENERGY RES INST OF SHANDONG ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, all of these catalysts are granular. In the process of dehydration of fixed bed methanol to synthesize dimethyl ether, it is difficult to remove the heat of reaction in time, the generated water cannot be separated from the surface of the catalyst in time, the space velocity is low, and the bed temperature difference is large. and other problems seriously affect the service life of the catalyst and the single-pass conversion rate of the reaction.
Patents CN2723451Y, CN2928846Y, CN2900523Y, etc. solve the above problems by improving the reaction equipment, and have achieved certain effects, but there are weaknesses such as long process flow, complicated equipment, and large investment.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] Embodiment 1: (1) The monolithic honeycomb cordierite matrix used in the experiment has a pore density of 400cpsi, and the matrix is ​​cut and ground into After the cylindrical samples were washed with deionized water, they were dried. (2) Vacuum impregnation of Fe(NO 3 ) 3 The solution was put into a carbon nanotube growth device after drying, reduced by flowing a hydrogen-nitrogen mixed gas at 500°C for 2 hours, directly raising the temperature to 750°C and passing through acetylene for 30 minutes, and switching to nitrogen to cool down to room temperature. Put the cordierite support with carbon nanotube crude product into 30% HNO 3 The solution was boiled for 1.0 h, washed and dried with deionized water, and the carbon nanotube loading was 15%. (3) Place the acid-treated CNT / bluestone in the pre-dispersed 1.0% HZSM-5 molecular sieve suspension, take it out after 30 seconds, blow off the residual liquid in the hole, and dry in the shade. After repeating the above...

Embodiment 2~3

[0020] Embodiments 2-3: The preparation method of the catalyst is the same as that of Embodiment 1, except that the growth time of carbon nanotubes is adjusted to 10-30 minutes, and other synthesis conditions remain unchanged. The conversion of methanol and the selectivity of DME are shown in Table 2. When the loading of carbon nanotubes is in the range of 8% to 16%, the loading of carbon nanotubes has little effect on the conversion of methanol and the selectivity of DME.

Embodiment 4~5

[0021] Embodiments 4-5: The preparation method of the catalyst is the same as that of Embodiment 1, except that the growth temperature of carbon nanotubes is adjusted to 700-800° C., the growth time is fixed at 10 min, and other synthesis conditions remain unchanged. Methanol conversion rate and dimethyl ether selectivity are shown in Table 2. The acetylene cracking temperature has a great influence on the growth of carbon nanotubes. If it is lower than 700°C, what is obtained is basically carbon deposition, which cannot promote methanol conversion.

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Abstract

An integral supported carbon molecular sieve catalyst, which is composed of integral honeycomb cordierite and carbon nanotubes, HZSM-5 type molecular sieve, wherein carbon nanotubes account for 7-20 parts, HZSM-5 accounts for 10-30 parts, cordierite Accounted for 60 to 80 copies. Preparation method: firstly, carbon nanotubes are grown in situ on monolithic honeycomb cordierite by chemical vapor deposition method, and this is used as a carrier, and ZSM-5 molecular sieve is grown on the carrier by secondary growth method. The monolithic supported carbon molecular sieve catalyst was applied in the synthesis of dimethyl ether from methanol dehydration.

Description

technical field [0001] The invention belongs to a novel synthesis technology of methanol dehydration to dimethyl ether, in particular to the preparation of an integral supported carbon molecular sieve catalyst and its application in methanol dehydration to dimethyl ether. Background technique [0002] At present, the production methods of methanol dehydration to dimethyl ether are mainly as follows: [0003] A. Methanol liquid phase dehydration method. Traditional liquid-phase dehydration of methanol to produce dimethyl ether is to form methyl bisulfate first in the presence of concentrated sulfuric acid, and then generate dimethyl ether. Although the reaction conditions of this process are mild (130-160°C), the single-pass conversion rate of methanol is high (>80 %), good selectivity (>98%), but the process equipment is corroded, the intermediate product is toxic, the residual liquid in the kettle and the waste water seriously pollute the environment, and it has tend...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J29/40B01J21/18B01J21/16C07C43/04C07C41/09
Inventor 王建梅蔡飞鹏王波许敏孙立
Owner ENERGY RES INST OF SHANDONG ACAD OF SCI
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