SU467762A1 - The method of increasing the activity of the alloy catalyst - Google Patents

Description

The invention relates to the manufacture of catalysts used in the chemical industry for the hydrogenation of, for example, fats, sugars.

There is a method of increasing the activity of an alloy catalyst, for example, nickel-aluminum, by quenching the alloy in water, followed by leaching.

However, such a catalyst exhibits low activity in the hydrogenation – hydrogen reaction.

Nin

The purpose of the invention is to increase the activity of the alloy catcher.

This is achieved by preheating the initial alloy to heat treatment at 750–950 ° C for at least 1 hour.

This makes it possible to increase the activity of the alloy catalyst by 5% –6% compared with catalysts that have not been heat treated.

The catalyst alloy is prepared as follows.

The aluminum is placed in a quartz crucible with pieces of 3-5 mm, then the crucible is heated in a high-frequency furnace until the aluminum melts, after which nickel is introduced. The displacement of the alloy was made by induction current after the aluminothermic reaction for 2 minutes at 17OO18OO ° C. Next, the alloy is cooled.

The cooling of the alloy is carried out at 2 ° C in a cast-iron mold and in water.

An alloy cooled in a cast-iron mold is subjected to heat treatment at 75 ° -95 ° C, depending on the composition of the nickel-aluminum alloy.

The choice of temperature in this range is determined by the chemical composition of the alloy and the microstructure resulting from this heat treatment as a result of phase transformations.

The role of heat treatment is that the alloy under heating above critical points (75 ° C and 95 ° C) undergoes phase transformations and, upon subsequent cooling in water (at 20 ° C), crystallizes with a structure that allows for high catalyst activity. When cooling a liquid melt in water, similar phase transformations do not fully or completely do not occur. The heat treatment is carried out in a muffle furnace. Samples of the catalyst (pieces O-30 mm) are loaded into the furnace at. After the temperature was equalized over the furnace volume, the samples were kept in it for 1 hour, and then cooled in water (at 20 ° C) and fractions were divided into 0.25 mm. Kata1zzator activate by

Initial state of samples

The composition of the alloy, weight. %

Chilled Mold

50.0 (at 20 ° С) SO.O

Chilled in water (at 20 С)

about the same

Cooled in a cast iron mold and heat-treated at 90 ° C, holding for 1 hour, cooling in water /

50.0

Chilled in a cast-iron mold (upon) 49.0

ten

about the same

Chilled in water (at 20 С)

(

Cooled in a cast-iron mold and heat-treated at 90 ° C, holding for 1 hour, cooling in water (at)

MP activity / min

10.3

13.3

15.4

11.0

11.3. 17.0% of alloys with a 2O% aqueous solution of caustic soda when boiling on water. bath for 2 hours. After that, the catalyst is thoroughly washed with water until neutral. The activity of the resulting catalysts is tested in the process of hydrogenation of maleic acid sodium. The activity of alloyed nickel-aluminum catalysts of the following composition is studied, weight. %: A1 - 5O, NL-50; A1 - 5O, N1- 49, Nb - 1. Data on the activity of nickel-aluminum catalysts are presented in the table ..

The subject matter of the invention is subsequent leaching, a tl and h.

The method of increasing the activity of the alloyed 40-catalyst activity, an alloy before quenching the catalyst, for example, nickel-aluminum,:. heat treated at 750-950 ° C

by quenching the original alloy in water with

u u and with the fact that, in order to increase

not less than 1 hour.