RU201657U1 - Device for wet cleaning and utilization of heat of air and flue gases - Google Patents

Abstract

The invention relates to the technique of wet dust collection, as well as utilization of the heat of flue gases and can be used in any industry that requires cleaning large volumes of flue gases, air purification in smoky workshops of industrial enterprises from toxic elements, oxides of sulfur, nitrogen, carbon, etc. ., for example, in the chemical, oil and gas industry, when disposing of waste by incineration. The technical objective of the invention is to create a highly efficient device for wet cleaning of gases from dust, ash, acids, nitrogen, carbon, as well as heat recovery from exhaust gases. The solution to the problem is achieved the fact that the known device for wet cleaning and utilization of heat of air and flue gases, consisting of a hollow body made of alloy steel, in the lower part filled with water, an inlet pipe for supplying contaminated gas, an outlet pipe for exhausting clean gas, a pipe for removing sludge, is additionally equipped pump for water supply from the lower part of the body to the upper part to pass through a horizontally perforated sheet, installed strictly horizontally and always on a grate made of non-oxidizable material, in order to avoid bending. Otherwise, the cleaning effect is reduced. Water passes through the perforated sheet and in free fall pours to the bottom, forming evenly spaced vertical jets. The gas entering the casing for cleaning passes through the water jets, is partially cleaned and transfers heat to the water. 2 ill.

Description

The utility model relates to the technique of wet dust collection, as well as the utilization of the heat of flue gases and can be used in any industry where large volumes of flue gases are required to be cleaned, air purification in smoky workshops of industrial enterprises from toxic elements, oxides of sulfur, nitrogen, carbon, etc. etc., for example, in the chemical, oil and gas industry, waste disposal by incineration.

Many technological processes of enterprises of the chemical and oil and gas industries are accompanied by the formation of dust and harmful gases, which leads to the pollution of the surrounding air with harmful technological dust and gas emissions. Therefore, protection from harmful technological dust and gas emissions of atmospheric air, which is necessary for the life of people, the animal and plant world, and also serves as the basis for many technological processes, is the most important environmental problem.

The requirements for the quality of the ambient air are constantly growing. In this regard, it is necessary to purposefully develop and implement more advanced equipment for cleaning dust and gas emissions from enterprises of various industries.

An increase in the efficiency of gas cleaning from fine dust is produced by the enlargement of dust particles by wetting them. This process is called wet scrubbing of gases from dust. This process provides contact of the dusty gas stream with liquid. The method of wet cleaning of air from dust is considered to be a simple and very effective way of dedusting gas mixtures. In wet dust collectors, process water is most often used as a scrubbing liquid.

Wet dust collectors have a number of advantages over other types of devices:

higher particle collection efficiency compared to dry mechanical dust collectors;

the possibility of cooling and humidifying the removed gases without additional costs;

the possibility of using the method for cleaning high-temperature gas streams;

wet gas cleaning equipment has a relatively low capital cost relative to other types of dust cleaning equipment,

and ensures the reduction of emissions of toxins, acids, nitrogen, carbon.

There is a known method of air purification (RU, 2284847, B01D47 / 02, publ. 10.10.2006), which consists in the fact that the contaminated gas flow is fed through the inlet pipe located in the housing, and one of the pipe sections is positioned with a gap above the liquid mirror located in the tank, and create pseudo-boiling of the liquid with the formation of a gas-liquid suspension. Then the gas-liquid suspension is withdrawn into the liquid phase separator, the gas flow is freed from liquid droplets and removed through the outlet pipe, and the resulting sludge is removed through a pipe located at the bottom of the housing. The contaminated gas flow is fed through a cylindrical nozzle, a vibrator is placed in the upper layers of the liquid and fixed to the body by means of an elastic perforated membrane, and the formation of a gas-liquid suspension is additionally enhanced by creating a vibro-boiling layer in the upper layers of the liquid. The device for air purification contains a housing, a nozzle for introducing a dusty gas and a nozzle for an outlet of purified gas, a reservoir with a liquid, a flushing nozzle and a pipe for removing sludge, while the nozzle for introducing a dusty gas is cylindrical, and a vibrator is placed in the upper layers of liquid to the body by means of an elastic perforated membrane.

The disadvantage is the relatively low efficiency of the dust collection process.

There is a known method of wet cleaning of air from dust, which consists in supplying a contaminated air stream to a certain volume of liquid (RU, 2071671, В09С 1/00, 10.01.1997).

The disadvantage of this method is that when contaminated air passes through the volume of the liquid, bubbles are formed, part of the dust is deposited on the wall of the bubble and enters the cleaning water, and the main part is inside the volume of the bubble. When the bubble ascends to the surface of the liquid, it bursts and the dust inside flies out into the constantly ascending stream of the cleaned air, due to which there is an insufficient efficiency of its cleaning. The disadvantages of this method also include the frequency of the air purification process associated with the need to periodically replace the spent purifying water.

A device for cleaning and disposing of flue gases is known (RU, 2388518, B01D47 / 02, publ. 10.05.2010). The invention relates to ash collectors and can be used at thermal power plants. The device contains a housing, an inlet pipe, an outlet pipe, a settling chamber equipped with a dividing wall, and the lower part of the dividing wall has longitudinal grooves with a constant pitch. The inlet pipe is equipped with a sprinkler made in the form of a collector with vortex nozzles. In the lower part of the chamber, there is a heat exchanger made in the form of a tubular coil. The device is equipped with a tangential inlet moisture separator.

The disadvantage of the ash collector is the relatively low degree of resource saving and flue gas cleaning.

A device for purifying air in a vibrating-boiling liquid layer (RU, 2630087, B01D47 / 06, publ. 05.09.2017) is known, comprising a housing, a nozzle for introducing dusty gas and a nozzle for an outlet of purified gas, a reservoir with a liquid, a flushing nozzle and a pipe for removal sludge, the nozzle for introducing dusty gas is cylindrical, and in the upper layers of the liquid there is a vibrator fixed to the body by means of an elastic perforated membrane, characterized in that an irrigation device in the form of a ring is fixed on the inner surface of the body with a gap relative to the cylindrical part of the nozzle for introducing dusty gas with nozzles located with its spray part towards the vibrator, while each of the nozzles contains a hollow body with a nozzle and a central core, the body is made with a channel for supplying liquid and contains a coaxial, rigidly connected sleeve with a nozzle fixed in its lower part, made as a cylindrical two-stage bushing, upper qi the lindrical stage of which is connected by means of a threaded connection with a central core coaxial with it, having a central hole and installed with an annular gap relative to the inner surface of the cylindrical sleeve, while the annular gap is connected to at least three radial channels made in the two-stage sleeve, connecting it to the annular a cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical step, and the annular cavity is connected with the channel of the body for supplying liquid, a sprayer is rigidly attached to the central core in its lower part, made in the form of a truncated cone, coaxial to the central hole of the core and attached by its upper base to the base of the cylinder of the central core, and to the lower base of the truncated cone, by means of at least three spokes, a divider is attached, which is made in the form of an end round plate, the edges of which are bent to the side the annular gap, and on the outer side surface of the truncated cone there are helical grooves, and in the splitter axisymmetrically to the central hole of the central core, a throttle hole is made, while an external diffuser is coaxially attached to the sleeve in its lower part, and an inner diffuser is coaxially attached to the lower base of the truncated cone of the atomizer.

The disadvantage is insufficient cleaning efficiency with increased complexity of the device design.

The closest in technical essence to the claimed technical solution (prototype) is a method of wet air cleaning with a dust collector - a nozzle scrubber (I. Zhmykhov, A. Chelnokov, A. Mironchik. Engineering methods of atmospheric air protection. Ed. Litres, publ. 5 September 2017, pp. 182-183) The dusty gas stream enters the scrubber through a branch pipe and is directed to the water mirror, where the largest dust particles are deposited. The gas flow and finely dispersed dust, being distributed over the entire section of the body, rise upwards towards the flow of drops supplied to the scrubber through the nozzle belts. Specific water consumption in nozzle scrubbers is 3.0… 6.0 l / m ³ . The overall cleaning efficiency obtained with nozzle scrubbers is low, in the range of 0.6 ... 0.7. Nozzle scrubbers effectively capture particles larger than 10 microns. Simultaneously with cleaning, the gas passing through the nozzle scrubber is cooled and saturated to saturation. In centrifugal-type apparatus, dust particles are thrown onto the liquid film by centrifugal forces arising from the rotation of the gas flow in the apparatus due to the tangential location of the inlet in the apparatus body. A liquid bar with a thickness of at least 0.3 mm is created by feeding water through nozzles and continuously flows downward, carrying dust particles into the hopper. The efficiency of gas cleaning from dust in devices of this type depends mainly on the diameter of the device body, gas velocity in the inlet pipe and dust dispersion.

The disadvantage of the prototype is that the nozzles used for spraying create an uneven irrigation of the gas flow, as well as the formation of a water aerosol that enters the atmosphere. For effective application of the method, additional installation of a moisture separator is required.

Another disadvantage of the prototype is the need to use highly alloyed materials due to significant wear of the device body due to the friction of wet dust particles against its walls.

The technical task of the utility model is to create a highly efficient device for the wet cleaning of gases from dust, ash, acids, nitrogen, carbon, as well as heat recovery from exhaust gases.

The solution to this problem is achieved by the fact that the well-known device for wet cleaning and utilization of heat of air and flue gases, consisting of a tubular hollow body made of alloy steel, in the lower part filled with water, an inlet for supplying contaminated gas, an outlet for discharging clean gas, pipes for drainage of sludge, a pump for supplying water from the lower part of the housing to the upper part to pass through a perforated plate, installed strictly horizontally and necessarily on the grate, in order to avoid bending. Otherwise, the cleaning effect is reduced. Water passes through the perforated plate and pours out to the bottom in free fall, forming evenly spaced vertical jets. The gas entering the housing for cleaning passes through the water jets, is partially cleaned and transfers heat to the water.

The utility model is illustrated by drawings:

figure 1 schematically shows a fragment of the device (upper part);

figure 2 is a general view of the device.

The device for wet cleaning and utilization of heat of air and flue gases contains a tubular body 1, partially filled in the lower part with water 2, a nozzle 3 for introducing dusty gas and a nozzle 4 for an outlet of purified gas, a pipe 5 for removing sludge, a pump 6 for supplying water from the lower part of the housing 1 into its upper part, a perforated plate 8 installed on the grate 7 in a strictly horizontal position.

The device works as follows.

The hollow body 1 of the device for wet cleaning and utilization of heat of air and flue gases is installed on the existing chimney 9 (Fig. 2) or a newly manufactured chimney.

Water from the lower part of the housing 1 is supplied by a pump 6 to the upper part, where, after passing through the perforated plate 8, installed horizontally on the grate 7, water in free fall pours out to the bottom of the housing. The gas (air) to be cleaned enters the housing 1 through the inlet pipe 3. When warm air passes through the water jets, heat is transferred and the air is partially cleaned. (For higher cleaning, the area of the holes changes).

The area of the perforated sheet and the diameter of the holes depends on the pump performance and is calculated depending on the purpose.

Example:

Plate size Perforation area Pump Electric energy 600 600 36% 60 m ³ / hour 1.1 kW 600 1200 120 m ³ / hour 2.4 kW

With this method, a very high heat transfer efficiency.

For purification of flue gases in large plants, the perforated plate aperture area and installation height are calculated locally. The resistance to the passage of flue gases through the installation changes insignificantly.

The device requires minimal maintenance costs. The range of application of the device is very wide: it is used for air purification in shopping centers, train stations, in chemical and metallurgical industries, in animal husbandry, poultry farming, and in incineration plants.

Thus, the implementation of the utility model solves the tasks set by the author.

Claims (1)

Device for wet cleaning and utilization of heat of air and flue gases, consisting of a tubular hollow body made of alloy steel, partially filled with water, an inlet for supplying contaminated gas, an outlet for exhausting clean gas, a pipe for removing sludge, a pump for supplying water from the bottom part of the body into the upper part, characterized in that a perforated plate is placed in the upper part of the body, horizontally mounted on the grate.

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