RU2006267C1 - Method for absorption of low-concentrated water-soluble gases - Google Patents

Abstract

FIELD: gas purification in chemical engineering. SUBSTANCE: low- concentrated gases obtained at the preabsorption stage are washed with a recirculating absorptive liquor in which the gas to be absorbed is present in a dissolved or chemically bounded form. Venturi tube is employed with a unitary nozzle providing an irrigation density in the range of 100-500 m cubic/m square x h on a mouth area base. The absorptive liquor excess is supplied to the preabsorption stage. A final washing is conducted at an irrigation density in the range of 0,02-0,5 m cubic/m square x h on the washer area base. A waste water is fed to a recycle tank containing the absorptive liquor. The purification extent from dimethyl and nitrogen oxides is as 97.8, 96.1 and 96.9% respectively. EFFECT: enhanced efficiency of purification.

Description

 The invention relates to the field of chemical technology and can be used for the absorption of low-concentration water-soluble gases, for example, remaining after previous technological operations.

A known method of absorption of low-concentration nitrogen oxides by washing nitrous gas in a venturi pipe with a soda solution supplied in with an irrigation density of 19.1-31.9 m ³ / m ² ˙ h [1].

 The maximum degree of absorption of nitrogen oxides reaches 90%, with a small hydraulic resistance of the apparatus of 20-100 mm of water. Art. A venturi-type apparatus provides higher absorption efficiency compared to foam, single-deck and gas-lift apparatuses. The disadvantage of this method is its small efficiency.

 A known method of absorption of low concentrated water-soluble gases after preliminary washing. The absorption is carried out by the absorption solution in the recirculation mode. The final washing is carried out with water with its supply at the outlet of the circulation tank with the absorption solution [2].

 A disadvantage of the known method for the absorption of low-concentration water-soluble gases is its low efficiency - mainly in a low degree of purification.

 The purpose of the invention is to improve the ecology of the environment by increasing the degree of purification and disposal of the absorbed gas.

The goal is achieved in the claimed method by the fact that as an absorber use a solution containing absorbed gas in a free or chemically bound state, spray it in a venturi using a single nozzle at an irrigation density of 100-500 m ³ / m ² ˙ h calculated on the area of the neck, and complete the absorption process by washing the gas with water supplied with an irrigation density of 0.02-0.5 m ³ / m ² ˙ h, calculated on the area of the washing apparatus, at the outlet of which water is connected to the recirculated solution.

 An absorber fed into the venturi pipe with an increased irrigation density will provide a stronger resolution in the neck area. As a result of this, a higher speed arises there, which provides an intensification of the interaction of gas and liquid flows. As a result, a higher degree of gas purification will be provided.

 Spraying the absorber with a single nozzle will provide a denser flow of droplets in the venturi, which will be better mated to the inner surface of the pipe. As a result, the suction effect of the pipe will increase, which will also contribute to the intensification of the interaction and to an increase in the degree of purification.

An important role in achieving the objective of the invention is performed by washing the gas with water in the final stage of the method. It provides final gas purification. As for the low densities of irrigation (0.02-0.5 m ³ / m ² · h based on the area of the washing apparatus), this ensures a high concentration of absorbed gas both in the solution recirculated through the Venturi pipe and in the apparatus, where the previous absorption stage is realized. As a result, the utilization of the absorbed gas is facilitated, which makes the claimed method either profitable or less unprofitable.

 A higher degree of gas purification, the ability to utilize absorbed gas, provide improved environmental ecology, that is, ensure the achievement of the objectives of the invention in full.

 To achieve the desired efficiency of the proposed method, it is necessary to maintain the optimum temperature of the flows, for which it is possible to cool them with circulating or chilled water.

PRI me R 1. Air with a volume of 5000 nm ³ / h, contaminated with vapors and aerosols of DMF dimethylformamide) to a concentration of 5.6 g / m ³ , sequentially passed through two column apparatus (D = 2.85 m, N = 5 , 0 m) loaded with Rashig rings. The temperature of the gas stream is 25-30 ^o C. Irrigation of the column apparatus is an aqueous solution of DMF of various concentrations, the irrigation regime is recirculation. The irrigation volume is 50 m ³ / h.

After passing through two column apparatuses, the gas stream was sent through a fan to a combined scrubber, which contained a Venturi pipe and a dishwasher scrubber mounted at different ends of the box-shaped container. Gas stream temperature of 30-35 ^{° C,} an overpressure of 300 mm water. Art.

Using the pump, a weak DMF solution in continuous recirculation mode was fed into the Venturi pipe, its neck area was 0.053 m ² , the absorber volume was 10 m ³ / h. The irrigation density per neck area was 200 m ³ / m ² ˙ h.

At the outlet of the venturi, the gas stream, passing through the separator, entered the flushing (plate) scrubber. Its area is 0.785 m ² . For irrigation, 28 l / h of distilled water was introduced into the washing scrubber, the irrigation density was 0.035 m ³ / m ² h. After passing the washing scrubber, the water joined the absorber recirculating through the Venturi pipe.

 As accumulation in a box-shaped container, excess DMF solution was transferred to the tail column apparatus, and from it excess solution was transferred to the head column apparatus. DMF production solution was removed from the head apparatus, its concentration was 56% DMF, volume - 50 kg / h. Such a production solution at the enterprise is subjected to rectification and then again used in production, i.e., as a result of using the proposed method, utilization of the absorbed gas is ensured.

 The effectiveness of the method is characterized by the following data (see table).

 The efficiency of both column scrubbers is 95%, the efficiency of the combined scrubber reached 97.8%.

PRI me R 2. Nitrous gas in an amount of 35000 nm ³ / h with a concentration of NO + NO ₂ equal to 2050 mg / m ³ passed through the head absorption column under an overpressure of 0.3 at. heated to 40 ^about With, filed in a combined scrubber containing a venturi and a washing scrubber.

A solution containing soda (Na ₂ CO ₃ ) of a concentration of 260 g / l, sodium nitrite 8 g / l and sodium nitrate 1 g / l was fed into the venturi in continuous recirculation mode. The absorber volume is 40 m ³ / h, the neck area of the Venturi pipe is 0.4 m ² , the irrigation area in the Venturi pipe is 100 m ³ / m ² ˙ h. As the formation of excess absorber was attached to the solution directed to the irrigation of the production tower.

At the outlet of the venturi, nitrous gas, passing the separator, entered a washing scrubber, into which 200 l / h of water was supplied. Since the area of the washing scrubber is 5.76 m ² , the irrigation density in the washing scrubber was 0.035 m ³ / m ² ˙h <0.5 m ³ / h.

At the outlet of the washing scrubber, the concentration of nitrogen oxides decreased to 80 mg / m ³ (0.004 vol.%), The degree of purification was 96.1%. Such indicators meet the most stringent requirements for the purification of gases from nitrogen oxides.

PRI me R 3. Air in an amount of 20,000 nm ³ / h, heated to 30-35 ^about With containing 3.16 g / nm ³ formaldehyde, under an overpressure of 300 mm of water Art. fed into the column apparatus (D = 3.2 m, H = 7 m), irrigated with a formaldehyde solution of a concentration of 35%, volume 80 m ³ / h. After passing through the column apparatus, a gas containing 822 mg / m ^{3 of} formaldehyde was sent to a combined scrubber containing a Venturi pipe and a washing scrubber. The neck area of the Venturi pipe is 0.22 m ² , the cross section of the washing scrubber is 3.1 m ² .

The Venturi pipe was irrigated in a continuous recirculation mode with a formaldehyde solution of a concentration of 10%, a volume of 50 m ³ / h, an irrigation density of 240 m ³ / m ² ˙ h. As the formation of excess absorber was discharged into the column apparatus, where it was used as an irrigation solution.

94 kg / h of water were supplied to the washing scrubber, the irrigation density in it was 0.03 m ³ / m ² ˙ h. 156 kg / h of 40% formaldehyde solution was removed from the column apparatus, which can be used as a commercial product under the household name “formalin”.

 The degree of gas purification in the column apparatus was 74%, in the combined scrubber - 96.9%.

 The above data indicate the high efficiency of the proposed method as a means of purification of gases from formaldehyde.

A new technical effect of the invention consists in the possibility of achieving a high degree of absorption of low-concentration water-soluble gases, which is completely determined by the use of the distinctive features of the claimed method: as an absorber sprayed in a venturi, a solution containing absorbed gas in a free or chemically bound state is used, it is sprayed with a single nozzle with an irrigation density of 100-500 m ³ / m ² ˙ h, calculated on the area of the neck of the venturi, and complete the process a adsorption by washing the gas with water supplied with an irrigation density of 0.02-0.5 m ³ / m ² ˙ h in the calculation is not the area of the washing apparatus, at the outlet of which water is attached to the recycled solution.

 A high degree of purification ensures the utilization of the absorbed gas, which ensures an improvement in the ecology of the environment, i.e., ensures the achievement of the objective of the invention in full.

The method can be used for the absorption of other water-soluble gases, in particular SO ₂ , SO ₃ , etc.

 The usefulness of the invention is to improve the ecology of the environment due to the higher degree of absorption of the gas and its utilization. (56) Vorlamov M.L. et al. Investigation of the process of absorption of nitrogen oxides of low concentrations by soda solutions in a venturi-type apparatus. - News of universities. Series "Chemistry and Chemical Technology". 1960, no. 3, N 1, p. 146-150.

 Japan Patent N 48112, CL C 01 b, 1972.

Claims (1)

METHOD FOR ABSORPTION OF LOW-CONCENTRATED WATER-SOLUBLE GASES, obtained after the preliminary absorption stage, including washing them in the recirculation mode with an absorbing solution containing absorbed gas in dissolved or chemically bound form, and finally washing them with water, followed by feeding it into a mixture of which is recycled that washing absorbing solution is carried out in the venturi tube via a single nozzle with an irrigation density of 100 - 500 m ³ / m ^{2 h} based on the playground neck, excess scavenger solution is fed to the pre-absorption step, and the final water wash is conducted at a water concentration of 0.02 - 0.5 m ³ / m ² h based on the area of the washer.

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