SU709136A1 - Carbon dioxide adsorbent - Google Patents

Description

The invention relates to the chemical and gas industry, namely to carbon dioxide absorbers, and can also be used to purify air from other harmful gases, such as SO, NO, etc. The adsorbent for purifying gases from CO2 is known, containing 40-60% hydroxide oxide sodium, the rest of the natural material is asbestos 1. The disadvantages of this adsorbent are the high consumption of expensive reagents (40-60%) with a relatively low CO2 adsorption capacity (50 mg / g). The closest to the described invention to the technical essence and the achieved result is carbon dioxide adsorbent, including natural material tremolite activating additive of one of a number of substances: NaHCOj, KHCOj, KOH, NaOH (2). The disadvantage of the known adsorbent is relatively low capacity for COj (60 mg / g). The aim of the invention is to expand the absorptive capacity and simplify the preparation technology of the tremolite-based carbon dioxide adsorber. The goal is achieved by the fact that the proposed adsorbent contains tremolite and magnesium oxide as an inorganic compound in the following ratio of initial components, wt.%: Tremolite 33.0-68.0 Magnesium oxide 32.0-67.0 V described adsorbent is used as an activating additive magnesium oxide in the specified amount, as well as tremolite rock (33.0-68.0 wt.%) and the unburnt state are used. The adsorbent is prepared as follows. Tremolite rock with the content of the main 1 "1 mineral (tremolite) 7595 wt.% Is ground and sieved through a No. 60 sieve (3600 holes / cm). The ground tremolite is impregnated with a solution of magnesium nitrate or mixed with freshly prepared wet magnesium hydroxide in K (32-67 weight) .% (calculated on magnesium oxide). The resulting mixture is dried in a drying cabinet at 100-120 ° C to

constant weight and then calcined for 15-30 minutes at 400-450 ° C to decompose magnesium hydroxide or magnesium nitrate to its oxide.

The resulting adsorbents are light gray powders.

colors with a density of 3.12-3.28 with a specific surface area of 100.6.

The adsorption capacity of the precursor adsorbent (1) compared to the prior art (n) is given in the table.

Claims (2)

As follows from the table, the resulting adsorbent has a CO capacity of 2-2.5 times higher than that known. The feasibility of the described adsorbent is c. higher capacity, as well as in simplifying the technology of its preparation due to the elimination of the process of high-temperature firing. When performing approximate calculations of the economic indicators of the production and use of the specified adsorbent (based on the same amount of absorbed carbon dioxide as compared with the known adsorbent), it is clear that the adsorbent is about 3 times more efficient than the known (based on tremolite with the addition of alkali metal compounds). Claims The adsorbent for absorbing carbon dioxide gas, including tremolite and inorganic compound, is due to the fact that, in order to increase the adsorption capacity and simplify its preparation technology, it contains magnesium oxide in the following ratio of initial components, wt. %: Tremolite 33.0-68.0 Magnesium oxide 32.0-67.0 Sources of information taken into account in the examination 1. US Patent 3729902, L. 55-389, published. 1973. 2. USSR author's certificate №562300, cl. B 01 D 53/02, 1977.