RU210853U1 - Device for purification of exhaust gases from phenol, formaldehyde and other foul-smelling components - Google Patents

Abstract

The utility model relates to devices for cleaning exhaust gases from phenol, formaldehyde and other foul-smelling substances and can be used for cleaning industrial process gases in the production of resins, plastics, in the petrochemical, textile, pharmaceutical, pulp and paper, coal and metallurgical industries. The technical result consists in simplifying the process and increasing the degree of purification of exhaust gases from phenol, formaldehyde and a complex of foul-smelling substances. A device for cleaning exhaust gases from phenol, formaldehyde and other foul-smelling components, containing a housing, an absorbent, a filter element, branch pipes for a contaminated and purified gas and liquid flow, where an alkali solution is used as an absorbent, which is sprayed through a sprinkler over a countercurrent passing gas in the first section , and the replaceable filter element contains activated carbon microparticles of the KAUSORB-212 brand as a sorbent for phenol, formaldehyde and other components of exhaust gases, the filter element is built into the device body using flanges and constitutes the second section for cleaning exhaust gases after absorption.

Description

The utility model relates to devices for purifying exhaust gases from phenol, formaldehyde and other foul-smelling substances and can be used to purify industrial process gases in the production of resins, plastics, in the petrochemical, textile, pharmaceutical, pulp and paper, coal and metallurgical industries. Phenol, formaldehyde are widely used as raw materials and are waste products of the industries listed above. Phenol is also used to make varnishes, paints, phenol-formaldehyde resins, plastics, leather, rubber, etc.

Phenol, even in small concentrations, is of anthropogenic origin, as a product of industrial emissions, and has a high toxicity and ecological hazard in relation to the environment and humans. Its solubility is 1.55 g per 100 g of water at 21°C. Phenol enters rivers and lakes with the effluents of industrial enterprises.

Phenol and its derivatives are highly toxic. MPC in drinking water for phenol C ₆ H ₅ OH is 0.001 mg / l according to RD 52.24.480-2006 "Mass concentration of volatile phenols in water. Method for performing measurements by the accelerated extraction-photometric method without distillation."

One of the urgent environmental problems is to prevent the ingress of phenol and formaldehyde into natural systems.

A known method for cleaning exhaust gases from phenol and formaldehyde (USSR Author's certificate No. 982756, IPC V01D 53/14 / Method for cleaning gases from phenol and formaldehyde // Garbauskas G.K., Vishnyauskas V.A., Bartkevicius I.A., Birmantas I.Yu., Chepelene R-R.S., application 4.01.81, published 23.12.82, BI No. 47, 1982). The essence of the invention: the exhaust gas with a temperature of 10-75°C is mixed with ozonized air in the presence of a copper carbonate catalyst and the weight ratio of ozone to the sum of phenol and formaldehyde is 1.2-4.0. Gases mixed with ozonized air are absorbed by an aqueous solution of alkali. Phenol reacts with sodium hydroxide to form sodium phenolate. Absorption is carried out in the mode of inversion of the liquid and gas phases. The degree of purification is 100% from phenol and 99.8% from formaldehyde. However, this method does not allow cleaning at low (negative) temperatures. Operating temperature range 10-75°C.

There is also a method for cleaning exhaust gases from phenol and formaldehyde (Author's certificate SU 1804341, IPC V01D 53/14 / Method for cleaning exhaust gases from phenol and formaldehyde // Belykh N.S., Milotsky V.V., Nesterov N.G., Oleinik A.E., Sycheva V.A., Yakobi V.A. application 01/09/91, published 03/23/93, B.I. No. 11, 1993). The essence of the invention: the exhaust gas with a temperature of 10-75°C is mixed with ozonized air. The molar ratio of ozone and the sum of phenol and formaldehyde is (0.5-2.0):1. Gases mixed with ozonated air are fed to absorption by water. Absorption is carried out in the mode of inversion of the liquid and gas phases. The degree of gas purification from phenol is 100% and 99.8% from formaldehyde.

The disadvantage of this method is the need to use an ozonator for the synthesis of ozone by the method of barrier discharge. The method is rather complicated and dangerous. In this way, exhaust gases are cleaned only from phenol and formaldehyde.

Also known is a method for cleaning exhaust gases from phenol, formaldehyde and related impurities (Author's certificate SU 1080838, IPC V01D 53/14 / Method for cleaning exhaust gases from phenol, formaldehyde and related impurities // Belodedova M.G., Boldyreva L.V., Emelyanov B.V., Limansky G.M., Nikonorov A.N., Samarina T.V., application 01.10.82, published 03.23.84, B.I. No. 11, 1984). The essence of the method lies in the purification of exhaust gases from phenol, formaldehyde and related impurities by washing with an absorbent containing water, hydrogen peroxide, sulfuric acid and peroxomonosulfuric and/or peroxodisulfuric acid. The disadvantage of this method is the low degree of oxidation of the trapped components, the incompleteness of purification and the duration of the purification process, as well as the complexity of the composition of the components, the need for heating to 60°C.

A known method for cleaning exhaust gases from a complex of malodorous substances (Patent RF No. 2180261, IPC V01D 53/02. Method for purifying exhaust gases from a complex of malodorous substances / Basov V.N., Weissman Ya.I., Gelfenbuim I.V., Glushankova I. .S., Nurislamov G.R., Rudakova L.V. The method of purification of exhaust gases from phenol, formaldehyde and related impurities // Belodedova M.G., Boldyreva L.V., Emelyanov B.V., Limansky G.M. ., Nikonorov A.N., Samarina T.V., application 01.10.82, published 03.23.84, B.I. No. 11, 1984). The method involves passing foul-smelling substances through a biologically active filter material containing small wood chips of deciduous or coniferous trees laid in layers, sawdust, osprey and bark with a moisture content of 70-80%. Bark and sawdust are used from the processing of deciduous or coniferous trees, and osprey is a waste from pulp and paper production in the form of sediments containing fiber, fine bark and kaolin. The disadvantages of this method include the laboriousness of preparing the filter material in the form of layers of various materials (wood chips, sawdust, osprey and bark), low sorption capacity, and the fact that this method does not allow air purification from formaldehyde.

A known method of absorbing gaseous ammonia (USSR Author's certificate No. 800134, IPC V01D 53/04. Method of absorbing gaseous ammonia / Gelfand E.D., Bogdanovich N.I., Perfentieva N.A., Vlagushin V.F. // Appl. 04/28/79, published 01/30/79, B.I. No. 4, 1981) by contacting with a solid absorber saturated with acid anhydride. Lignin is used as an absorbent. The disadvantage of this method is the selective absorption of one ammonia gas.

The closest in technical essence and the achieved result to the proposed one is a method of deodorization of exhaust gases (USSR Author's certificate No. 1337127, IPC V01D 53/02. Method of deodorization of exhaust gases / Perchugov G.Ya., Maksakova M.Yu. // Appl. 16.08. 1985, publ. 09/15/1987, BI No. 34, 1987), taken by us as a prototype. The essence of the method is as follows. Exhaust gases containing impurities of organic substances: phenol, alcohols, hydrocarbon ethers, acroleins, are passed through a biologically active filter material. As a filter material, a mixture of coniferous trees, peat and sawdust is used, at a volume ratio of 1:0.5:0.5, impregnated with a nutrient medium for the accumulation of microorganisms, consisting of a dilute aqueous solution of ammonium nitrate, potassium hydrogen phosphate and dihydrogen phosphate, magnesium sulfate, calcium chloride and iron(III) chloride. The disadvantage of this method is that the filter material must be constantly impregnated with a previously prepared nutrient medium, which leads to the complexity of the cleaning process and makes the method expensive. This method does not allow to remove foul-smelling components (ammonia, phenol and mercaptan, etc.) from the exhaust gases. In addition, this method does not allow cleaning at low (negative) temperatures and does not exclude corrosion of structural elements.

All methods closest in technical essence and the achieved result are either ineffective or too expensive, complex, but their main disadvantage is that they are all designed to remove no more than two components.

The purpose of the utility model is to create a device in the interests of simplifying and increasing the degree of purification of exhaust gases from phenol, formaldehyde, alcohols and a complex of malodorous substances.

The technical result consists in simplifying the process and increasing the degree of purification of exhaust gases from phenol, formaldehyde and a complex of foul-smelling substances in the proposed "Device".

The problem is solved with the help of such features as the purification of exhaust gases from a complex of foul-smelling substances passed through the active filter material.

The technical result is achieved by using a device for cleaning gases from phenol, formaldehyde, aniline, alcohols and other foul-smelling substances, containing a housing of 2 sections, an absorbent, a replaceable filter element, pipes for a contaminated and purified gas and liquid flow, where the composition is used as an absorbent , wt.%:

sodium hydroxide 10-13 octadecylamine 3-5 sucrose 2-5 film-forming blowing agent 5-7 water rest,

which is sprayed through nozzles over the passing gas, i.e. counterflow, and the replaceable filter element acts as an adsorbent for phenol, formaldehyde, aniline, alcohols and other foul-smelling substances, while the replaceable filter element is built into the body of the device.

The ingredients used are an aqueous solution of sodium hydroxide (NaOH), an aqueous solution of sucrose, a film-forming foaming agent, the content of which is selected experimentally. Due to the use of sucrose in the fire extinguishing composition, the freezing point of the solution decreases and it becomes possible to form a water film in the low temperature zone - up to minus 50 ... 55 ° С. In addition, the use of a mixture of anionic and nonionic surfactants at a ratio of 1:3 as a film-forming foaming agent increases the absorption area. The presence of a corrosion inhibitor (octadecylamine) in the absorbent reduces its corrosive properties.

The composition is prepared as follows. Sequentially dissolve in a small amount of water sodium hydroxide, sucrose, octadecylamine, film-forming foaming agent. Then water is added to the resulting solution to comply with the claimed ratio. Sodium laureth sulfate (anionic surfactant) and lauramine oxide (nonionic surfactant), for example, sodium laureth sulfate in a ratio of 1:3, can be used as a water-based film-forming blowing agent.

Due to the use of surfactants, a high-expansion air-mechanical foam is created, which allows efficient absorption. In addition, the use of an aqueous solution of sucrose, octadecylamine and surfactants in the indicated ratios maintains the freezing point of the solution to minus 50-55 ° C (patent for the invention RU No. 2622838. Fire extinguishing composition / Melnikov I.N., Zakharchenko M.Yu., Pichkhidze S. Ya., Yurov O.A., Kayrgaliev D.V., Popova E.A. // application 29.12.2015, published 20.06.2017), which is important when operating the plant at low temperatures. The presence of a corrosion inhibitor (octadecylamine) in the composition reduces its corrosive properties, which significantly increases the service life of the installation and reduces corrosion of the structural elements of the "Device".

A distinctive feature of the proposed device for cleaning exhaust gases from phenol, formaldehyde, aniline, alcohols and other malodorous substances is that a device is used in which the process of absorption on carbon particles as an adsorbent simultaneously takes place.

Organic (natural) sorbents are considered the most promising in the purification of air pollution. Among them, coconut-based activated carbons are widely used.

Crushed activated carbons of the KAUSORB brand (TU 2162-210-05795731-2006) are made from activated coconut shells by crushing and then screening. Activated carbons based on coconut have a well-developed microporous structure, high strength, which allows for multiple regeneration. KAUSORB-212 is widely used for drinking water treatment in water treatment systems and industrial wastewater in various industries, table. one.

The device makes it possible to obtain purified gas from phenol, formaldehyde, aniline, alcohols and other foul-smelling substances with high efficiency, table. 2.

Analysis of the table. 2 shows that KAUSORB-212 has a high sorption capacity. The degree of purification reaches, %:

phenol 100 formaldehyde 99.9 mercaptans 96 aniline 92.0 alcohol 99.2 ammonia 99.3

when carrying out cleaning processes using the proposed "Device".

In FIG. 1 shows a device for cleaning exhaust gases from phenol, formaldehyde, aniline, alcohols, where: 1 - absorbent, wt.%:

sodium hydroxide 10-13 octadecylamine 3-5 sucrose 2-5 film-forming blowing agent 5-7 water rest,

2 - replaceable filter element with adsorbent, 3 - particles of coal grade KAUSORB-212, 4 - nozzles for polluted gas, 5 - nozzles for purified gas, 6 - mesh made of fibrous material with a metal frame, 7 - drain hole, 8 - mounting flanges, 9 - valve, 10 - "Device" body, 11 - metal frame, 12 - fibrous material, 13 - sprinklers.

The operation of the device is presented as follows: in section 1, contaminated exhaust gases through nozzles 4 enter housing 10 "Device", where they are exposed to alkali solution 1, through sprinklers 13, since phenol, formaldehyde and other foul-smelling components interact with alkalis, and residual quantities that do not interact with alkali enter the next second section, where a replaceable filter element with adsorbent 2 is located, while activated carbon 3 of the brand KAUSORB-212 is used as an adsorbent. The purified gas through pipes 5 enters the atmosphere. The replaceable filter element 2 with coal particles 3 is inserted into the body of the “Device” 10 using mounting flanges 8. If necessary, the gas flow can be stopped by shutting off the valve 9. The replaceable filter element 2 is a metal frame 11 with a metal mesh 6 made of fibrous material 12, inside which is the adsorbent in the form of particles of coal 3, through the drain hole 7 is the transfer of absorbed substances and products of interaction of exhaust gases into the sewer.

Claims (3)

A device for cleaning exhaust gases from phenol, formaldehyde and other foul-smelling components, containing a housing, an absorbent, a replaceable filter element, nozzles for a contaminated and purified gas and liquid flow, characterized in that the composition of the following content is made as an absorbent, wt.%: sodium hydroxide 10-13 octadecylamine 3-5 sucrose 2-5 film-forming blowing agent 5-7 water rest, which is sprayed through a sprinkler above the countercurrent flowing gas in the first section, and the replaceable filter element contains activated carbon microparticles of the KAUSORB-212 brand as a sorbent for phenol, formaldehyde and other components of exhaust gases, the replaceable filter element is built into the device body using flanges and constitutes the second section for cleaning exhaust gases after absorption.

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