RU2042400C1 - Method of gas cleaning of carbon dioxide - Google Patents

Abstract

FIELD: gas industry. SUBSTANCE: gas containing carbon dioxide comes in contact with product of kaolin modification by ferric oxide monohydrate (III) in modification γ = FeO(OH) or δ = FeO(OH) at its content in product within 50 to 60 mass percent, having a density 3,8-5,0 g/cm³. EFFECT: facilitated procedure. 1 tbl

Description

 The invention relates to the purification of process gases from carbon dioxide and can be used in the chemical, petrochemical and metallurgical industries to create regenerable absorbers of carbon dioxide from a humid atmosphere in sealed volumes.

 The aim of the invention is to increase the degree of purification of gases from carbon dioxide.

EXAMPLE EXAMPLE 1 An adsorbent was prepared by reacting 0.15 m solution of iron sulfate (II) and at a weight ratio of kaolin and kaolin solution 1:10 heat treating the suspension at a temperature of 90 ^{° C} for 1.5 hours, followed by the addition of metallic iron at a mass ratio of iron and solution of 1:10 and oxidation of iron by air passing through the solution at a speed of 10 l / min for 15 hours

The product is filtered off, washed with water and dried under dry nitrogen. The adsorbent contains 50 wt. kaolin and 50 wt. iron (III) oxide polyhydrate δ-FeO (OH) (according to NGR spectra and X-ray diffraction analysis) and has a specific gravity of 3.8 g / cm ³ .

An adsorbent in an amount of 1 g is placed in an airtight test cell filled with air and carbon dioxide. By changing the pressure in the cell, carbon dioxide absorption is judged. Absorption is carried out until the absorption of carbon dioxide by the adsorbent ceases. The partial pressure of carbon dioxide in the initial mixture is 5.33 × 10 ³ Pa, after absorption of the adsorbent 5.07 × 10 ³ Pa.

The adsorption capacity is 150 mg CO ₂ / g adsorbent, the degree of purification of gases from carbon dioxide 15.1%
PRI me R 2. Similar to example 1 except that the relative humidity of the cleaned air is 100%
Data characterizing the cleaning process are presented in the table.

PRI me R 3. Similar to example 1 except that when receiving the adsorbent heat treatment is carried out at 100 ^about With for the modification of kaolin with monohydrate of iron oxide (III) γ-FeO (OH) and purify the air with a relative humidity of 50% adsorbent, containing 60 wt. γ-FeO (OH) and 40% kaolin and having a density of 5.0 g / cm ³ .

The degree of purification of air from carbon dioxide is 19.9%
EXAMPLES 4 and 5. Similar to example 3 with the exception of the humidity of the cleaned air, the content of γ -FeO (OH) and kaolin in the adsorbent and the density of the adsorbent (see table).

PRI me R s 6-9 (prototype). The adsorbent is obtained by reacting crystalline iron (III) sulfate with 25% NH ₄ OH taken in a 2-fold excess. The precipitate was dried at ³⁰ ° C for 24 hours. The obtained ferric oxide (III), having a specific gravity of 0.71 g / cm ^3.

 The purification of air from carbon dioxide is carried out, as in example 1. The values of the relative complexity of the cleaned air and the degree of purification are shown in the table.

Claims (1)

METHOD FOR CLEANING GASES FROM CARBON DIOXIDE, including contacting gases with an adsorbent based on iron oxide (III) hydrate, characterized in that, in order to increase the degree of gas purification, the product of kaolin modification with iron oxide (III) monohydrate in the modification γ = FeO (OH) or δ = FeO (OH) when its content in the product is 50-60 wt. having a density of 3.8 5.0 g / cm ³ .

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