SU1202611A1 - Method of preparing carries for methane conversion catalyst - Google Patents

Description

eleven

The invention relates to the production of microporous carriers for catalysts used for the conversion of natural gas, and can be used in the nitrogen industry, for example, for steam and vapor-oxygen conversion, as well as in the petrochemical and metallurgical industries for processes. production of hydrogen and carbon from the carbon raw material feedstock for the synthesis of ammonia and alcohols.

The purpose of the invention is to obtain a carrier with increased porosity, heat resistance and strength, providing increased activity of the catalyst based on it by using a binder, which allows to obtain a carrier of a certain porous structure,

Example 1. To prepare 100 kg of carrier, 96 kg of alumina, 5.4 kg of chalk, 1.1 kg of magnesite are taken and milled in a ball mill to a particle size of 0.45 mm for 30 hours. The ground mixture is poured into a mixer, where 6 kg of ground petroleum coke with a particle size of 0.5 mm is fed, mixed for 5 minutes and 36 liters of 355% Na-carboxymethylcellulose (CMC) solution are slowly poured and mixed for 25 minutes before creeping homogeneous elastic mass. Weight ratio: CMC; petroleum coke is 1: 0.012: 0.062.

The mass is molded in the form of hollow sausages, which are cut into pellets 16 x 4 x 16 mm in size.

The granules are held at 70 ° C for 4 hours and calcined with a gradual rise in temperature to 1 hour to 1350 ° C with a holding time at this temperature for 5 hours,

The result is a carrier containing wt.%: CaO 3; MgO 1; 0.58; AlijOj up to 100, with a total porosity of 52.0%, strength of 600 kg / cm, heat resistance of 135 K,

Example 2. A carrier is prepared analogously to example 1, only the amount of petroleum coke takes 7 kg.

112

and the CMC solution concentration is 3.7%. which is the mass ratio of CMC: petroleum coke 1: 0.013. 0.07.

The result is a carrier composition, wt.%: CaO 3; MgO 1; 0.61; up to 100, with a total porosity of 52.6%, a strength of 550 kg / cm, heat resistance of 130 K.

Example 3. A carrier is prepared analogously to example 1, only an amount of petroleum coke is taken by an 8 kg concentration of CMC solution of 4% which is the mass ratio: CMC of petroleum coke 1: 0.015: 0.08. The result is a carrier composition, wt.%: CaO 3 MgO 1; 0.69; A1g.0z to 100, with a total porosity of 53.0%, strength of 530 kg / cm, heat resistance of 125 K.

The prepared support is used for methane conversion catalyst. The surface of the support obtained by the proposed method 12-17 MVr.

The carrier is impregnated three times with a solution of nickel and aluminum nitrate salts for 20 minutes. Per 100 l of water take 45 kg NiCNOg) and 15 .kg A1 (NOj) with calcination after each impregnation at 400 C. The content of NiO is 11-11.8 wt.%.

The process conditions are as follows.

Bulk speed.

,-one

2000

The temperature in the reaction zone, .800

Ratio of steam: gas 2: 1 of residual CH (,,% 0.0. Table 1 presents the properties of the proposed carrier; table 2 shows the comparative characteristics of the carriers using different binders.

From tab. 1 and 2, it follows that only this combination of petroleum coke and 1 WSC contributes to obtaining a carrier with improved properties, which make it possible to obtain a catalyst based on it with a specific activity.

about

1L

Yu

 .

"L

g

 SP

about p

L |

h

1L

ffl

oh oh

hl

P

1L

1L about

 .. 1G |

oh oh

g so you

Ltd

oh oh

oh oh

about sh

about og

"L

. about

1Lo

0

oh se

1Л f о о

gp with hG R

- “M M 1L

Claims (1)

METHOD FOR PREPARING A MEDIA FOR A METHANE CONVERSION CATALYST by mixing chalk, magnesite, alumina and petroleum coke with an aqueous binder solution, followed by molding, drying and heat treatment of the resulting mixture, characterized in that, in order to obtain a carrier with an increased porosity and thermal stability, increased activity of the catalyst based on it, sodium — carboxymethyl cellulose is used as a binder with a mass ratio of it to mixture (0.012–0.015):: 1.