SU52333A1 - Method for preparing catalysts for gas purification from organic sulfur compounds - Google Patents

Description

The gases used to synthesize ammonia, methanol, etc., have very high requirements for the content of sulfur compounds, since minor sulfur impurities poison the catalysts, which leads to a decrease in the performance of contact machines (for example, sulfur more than 0.1-0.2 g per 100 m of gas leads to a rapid poisoning of the catalyst).

The most reliable methods used to remove organic sulfur-containing compounds from gases are the adsorption of the latter with activated carbon and the method for the catalytic conversion of organic sulfur compounds into hydrogen sulfide, which is then removed in the usual way. The latter method, in contrast to the first, allows complete cleaning.

Catalysts used for the purification of gases from organic sulfur are usually composed of molybdenum, uranium, noble metals, a mixture of copper oxide and lead chromate, a mixture of thorium oxide and magnesia.

In addition, it is known the use of porous cement catalysts containing iron, as well as blast furnace slags. The inventor of the present invention proposes to obtain catalysts for the purification of gases from organic sulfur compounds by the method of producing gas-concrete. To do this, mix the slag cement mixture with iron bauxite, water, lime milk and aluminum powder. Luminescent reacts with calcareous MO10KOM, and the resulting hydrogen imparts porosity to the mass.

When it is prepared, bauxite is added to the catalyst, but not iron oxide hydrates, since the latter destroy the porosity of the contact mass, while bauxite greatly improves the physical properties of the contact mass.

The catalyst prepared in this way can completely purify gases containing hydrogen (luminous gas, nitric mixture, water gas, etc.) from organic sulfur compounds at temperatures of 425–450 ° and a bulk velocity of 1000–2000. Under these conditions, gas purification from organic sulfur compounds is carried out at 99-100%, which makes it possible in the output gas to have 0.1-0.2 g S per 100 liters of gas.

Example. They take 100 parts of cement, 35 parts of bauxite and 0.06 parts of metallic aluminum. The weighed dry materials are well mixed and 68 parts of water and a small amount of milk of lime (0.5 parts of calcium oxide in 30 hours) are added to them. water). The mass, having the appearance of thick milk, is poured into wooden forms in which it is allowed to stand for some time. The mass gradually increases in volume. After 2-3 hours, the increase in volume stops, and sometimes 100% weight gain is achieved. After 1-2 days, the mass can be removed from the mold and left to dry at room temperature. Thus prepared porous cement mass has a specific weight of 0.7-0.6 and through

2 weeks after fabrication, in a crush test, 8-10 KZJCM resistance is shown.

For loading into the contact apparatus, the catalyst mass is crushed into pieces of the desired size.

The subject matter of the invention.

A method of producing a catalyst for purifying gases from organic sulfur compounds by kneading a mixture of slag cement with ferrous bauxite with water and lime milk, characterized in that a small amount of powdered metallic aluminum is added to the mixture of slag cement with ferrous bauxite, which produces hydrogen that forms pores.