RU2633081C1 - Installation for unpleasant odour elimination "wet barrier" - Google Patents

Abstract

FIELD: human life necessities satisfaction.

SUBSTANCE: installation contains a centrifugal pump unit (1) for water injection, a pressure accumulator (3), a pressure gauge (4), a water pressure sensor (5), a tap (6) and a filter unit (7) installed in series at its output, at least one container for the reagent concentrate (8), a container for the aqueous reagent solution (9), and a mixing device (10). The said mixing device includes at least one ejector (11) connected by its nozzle via the valve (12) and a normally closed valve (13) to water injection, by the suction chamber to the reagent concentrate tank (8), and by the diffuser output to the container for the aqueous reagent solution (9) connected to the pump unit (15) suction to feed the reagent solution to the spraying means. At that, the container for the aqueous reagent solution (9) is provided with a float (16) connected by a ball chain (17) with a collar arranged to act on the normally closed valve (13). The unit is also equipped with a gas analyzer, a weather station and a software control unit (21) for the reagent solution pump, connected thereto and to a water pressure sensor.

EFFECT: complete automation of the deodorization process with increased reliability by human factor elimination.

15 cl, 4 dwg, 1 tbl

Description

The invention relates to the field of medical equipment, sanitation, disinfection, sterilization and deodorization using gaseous or vaporous substances, in particular to devices for purifying air from gas contamination by spraying an aqueous solution of reagents, for example, to eliminate unpleasant odors from industrial plants, landfills, in diesel and gas power plants, in tunnels of subways and highways, i.e. for cleaning the surface atmosphere in megacities and cities with high industrial integration.

A technical solution is known for eliminating the smells of landfills, landfills and irrigation fields, including exposure to a smell source with a sprayed organic reagent, in which a smell source is sprayed with a water-oil spray type water emulsion containing 2,7,7-trimethylbicyclo [3, 1,1] hepten-2 and trans-3,7-dimethyloctadiene-2,6-ol-1 (RU 2331442).

This technical solution does not provide for automatic exposure to the source of odor and control parameters that affect the consumption of reagents and the frequency of exposure.

A technical solution is known for purifying air from dispersed and molecular impurities, including trapping coarsely dispersed particles with a coarse mechanical filter, subsequent introduction of additional oxidizing gas into the cleaned air mixture, and photooxidation with decomposition of trapped impurities under the influence of ultraviolet radiation with a wavelength of more than 0.3 microns on the surface of the photocatalytic a filter with a photocatalyst deposited on a porous structure, using pure titanium dioxide with cr the metal structure of anatase or titanium dioxide containing one or more transition metals (platinum, palladium), and the final sorption of oxidizing gas and oxygen-containing molecular compounds in the pores of the activated carbon filter, and ozone is used as oxidizing gas, which is formed in a cylindrical condenser with a central a corona wire electrode, for which unipolar charging with aerosol particles by positive gas ions is carried out in the corona discharge zone, followed by by their deposition on the surface and in the volume of an electrostatic coarse fiber filter polarized by an external electric field, the intensity vector of which is collinear to the air velocity vector, and the subsequent photooxidation of impurities with the simultaneous purification and reactivation of the photocatalyst and activated carbon from the collected filtrate is initiated by ultraviolet radiation in the presence of ozone (RU 2352382).

However, such a technical solution is too complicated and expensive, provides the elimination of unpleasant odors only for organized sources of odor emissions, i.e. in small rooms, spaces.

A device for cleaning air from gas contamination and particulate matter, including unpleasant odors, including a housing, a diffuser, a catalysis chamber, a confuser and a pipe for discharging purified air into the atmosphere, coarse and fine filters, and in the air purification chamber having double a bottom with a slope to drain excess moisture and equipped with nozzles for spraying the supplied water onto fine aerosols, a fine filter is installed, made in the form of filter cartridges for cleaning air from foreign particles, p yes cartridges with a set of carbon catalytically active tissues with different knitting geometry, different permeability and different catalytic activity with moistening carbon fabrics and cartridges of chemisorption materials that act as ion-exchange resins for the purification and chemical sorption of residual catalysis products, established in a certain sequential order with a distance between them from 35 to 50 mm depending on the type of filter material and having gaps between themselves, related to the thickness of each eduyuschego cartridge is not less than 2: 1 for the reducing treatment temperature (RU 96501).

This device is inefficient, complex and expensive, provides the elimination of unpleasant odors only for organized sources of odor emissions, i.e. in small rooms, spaces.

A device is known, which is suitable for essentially purifying air from gas contamination by separating aromas, intended for use with a replaceable refill unit with a liquid containing one or more active substances, wherein the active substance contains at least one aromatic substance; wherein the replenished block comprises a sealed reservoir containing said liquid, as well as a porous tampon, continuing from the inside of the reservoir to the outside; wherein the device comprises: an air pump; a fluid channel communicating in fluid with the air pump, so that in operation, air pumped by the pump flows through the fluid channel; a nozzle located at the end of the fluid channel away from the air pump; ejector constriction created in the fluid channel adjacent to or substantially adjacent to the nozzle; a fluid channel formed adjacent to an ejector constriction, in fluid communication with a fluid channel at one end and open at the other end to receive liquid therein; the fluid channel is located in a porous swab.

It is also known a device in another embodiment with at least two replaceable refillable units with liquids, each of which contains at least one active substance; wherein the active substance contains at least one aromatic substance; wherein each replenished block contains a sealed reservoir containing said liquid, as well as a porous tampon, continuing from the inside of the tank to the outside; wherein the device comprises: at least one air pump; at least two fluid channels corresponding to the number of replaceable refillable blocks, said fluid channels being in fluid communication with one or each of the air pumps, so that in the operating mode, the air pumped by the pumps flows through the fluid channels ; a nozzle located at the end of each fluid channel away from the air pumps; ejector constriction created in each fluid channel adjacent to or substantially adjacent to the nozzle; a fluid channel located adjacent to each ejector constriction, in fluid communication with a corresponding fluid channel at one end and open at the other end to receive liquid therein; each fluid channel is located in respective porous tampons of said two or more replaceable refillable blocks (RU 2577294, prototype).

However, this device is unable to eliminate unpleasant odors from a large area of unorganized sources, has a short life, lack of efficiency. At the same time, the volume of processed air and the territory protected from odor are limited, there is no possibility of prompt automatic maintenance of operating modes optimized for current climatic environmental conditions, odor intensity and current real weather conditions that have a significant impact on the distribution and reactivity of odor carriers are not taken into account: direction and wind strength, precipitation, pressure, air temperature.

An object of the invention is the creation of an effective installation for the elimination of unpleasant odors, as well as the expansion of the arsenal of installations for the elimination of unpleasant odors, including from unorganized sources of emissions of odors.

The technical result that provides the solution of the problem lies in the fact that the volume of the treated air is significantly increased and, therefore, the area protected from odor is provided, the possibility of operational automatic maintenance of operating modes optimized for current climatic conditions of the environment is provided, monitoring and accounting of the intensity of odor and current real weather conditions that have a significant impact on the distribution and reactivity of odor carriers: direction and lu wind, the presence of precipitation, pressure, temperature of the air expelled unproductive losses of water and the reactants in the automatic mode, not using expensive solid reactants and does not require disposal of used solid reactants.

The essence of the invention lies in the fact that the installation for eliminating unpleasant odors comprises a centrifugal pumping unit for pumping water, a pressure accumulator, a pressure gauge, a water pressure sensor, a tap and a filter unit, and at least one concentrate tank reagents, a container for an aqueous solution of reagents and a mixing device comprising at least one ejector connected by its nozzle through a valve and a normally closed valve to the discharge of water, suction chamber sulfur to the container for the reagent concentrate, and the outlet of the diffuser to the container for the aqueous reagent solution connected to the suction of the pump unit for supplying the reagent solution to the spraying means, and the tank for the aqueous reagent solution is equipped with a float connected by a ball chain to a clamp installed impact on a normally closed valve, while the installation is equipped with a gas analyzer, a weather station, as well as a pump control unit associated with the latter and with a water pressure sensor m unit for supplying reactant solution.

Preferably, the normally closed valve is made with a spring, at the ends of which there is a locking element and a permanent magnet, mounted to move the locking element under the influence of a clamp associated with the float in the tank for an aqueous solution of reagents.

As a rule, a normally closed solenoid valve is equipped with a clamp for mounting an aqueous solution of reagents on the wall of the tank.

Moreover, the concentrate capacity contains a reagent concentrate in the form of a mixture of essential oils and organic compounds present in plants from the group of terpenes, aldehydes, alcohol and ketone, benzene derivatives, eugenol and vanillin.

In special cases of implementation, the installation was made, if necessary, with two containers for reagent concentrates and two mixing devices with ejectors, each connected in parallel with its own nozzle through a manually operated valve and a normally closed solenoid valve to pump water, the suction chamber to an appropriate container for reagent concentrate, and the diffuser exit - to the tank for an aqueous solution of reagents.

Moreover, one container of the concentrate contains a reagent concentrate in the form of a mixture of essential oils and organic compounds present in plants from the group of terpenes, aldehydes, alcohol and ketone, benzene derivatives, eugenol and vanillin, and the other is isopropyl alcohol.

Preferably, a replaceable plastic choke is installed at the inlet to the suction chamber of each ejector.

Preferably, a pipeline is installed at the inlet to the nozzle of each ejector, the length of which is selected from the condition of ensuring equalization of water velocities over its cross section.

Preferably, the filter unit for water purification is configured to filter solid particles with a fineness of up to 5 microns.

Preferably, the gas analyzer is made in the form of a set of gas analyzing sensors for different types of pollutants, the gas analyzer is made in the form of concentration sensors for concentration sensors of hydrogen sulfide and ammonia (H ₂ S, NH ₃ ).

Preferably, the installation is equipped with pressure sensors on the suction of the pumps of the pumping units connected to the program control unit

In addition, the installation is equipped with level sensors in tanks connected to the program control unit

Preferably, the weather station is configured to control the direction and strength of the wind, the presence of precipitation, pressure, humidity and ambient temperature.

As a rule, the program control unit is a computer equipped with a timer for the periodicity of switching on, configured to control based on parameter values controlled by sensors, a gas analyzer, and a weather station.

In FIG. 1 shows a general installation diagram, FIG. 2 is a structural diagram of a mixer with one ejector; FIG. 3 is a structural diagram of a mixer with two ejectors; FIG. 4 is a general electrical diagram of the installation.

The installation for eliminating unpleasant odors “Wet barrier” contains mounted on a rack, fixed in it and interconnected by pipelines with assembly operations from the group: screwing, jointing, riveting, welding, soldering, crimping, flaring, the first centrifugal pump unit (pump) 1 for pumping water from a container 2 or from a water supply system, a liquid pressure accumulator 3, a pressure gauge 4, a water pressure sensor 5, a tap 6 and a filter unit 7, as well as at least one container (tank), sequentially installed at its outlet 8 for a reagent concentrate, a tank (tank) 9 for an aqueous reagent solution and a mixing device 10. The device 10 includes at least one ejector 11 connected to its nozzle through a manual valve 12 and a normally closed solenoid valve 13 to pump water from pump 1 through the flange 14. At the same time, the ejector 11 is connected with its suction chamber to the tank 8 for reagent concentrate, and the output of its diffuser is connected to the tank 9 for an aqueous reagent solution connected to the suction of the (second) pump unit (pump) 15 for supply of the reagent solution to the spraying means. The tank 9 for an aqueous solution of reagents is equipped with a float 16 connected by a ball chain 17 with a clamp 18, mounted with the possibility of acting on a magnet 13e of a normally closed solenoid valve 13. Ball chain 17 is a type of chain consisting of small metal balls connected to each other, for example , in small pieces of wire. This chain allows you to change the height of the suspension of the float, eliminates entanglement and prevents distortion of the clamp 18.

At the same time, the installation is equipped with a gas analyzer 19, a weather station 20, as well as a program control unit 21 of the drive motor of the pumping unit 15 connected with the latter and with the water pressure sensor 5.

The program control unit 21 may additionally have means for remote, automatic or manual control of the drive motor of the pump unit 1.

A normally closed solenoid valve 13 is made with a housing 22, a spring 13f, at the ends of which a locking element 13m and a permanent magnet 13e are installed, which are capable of compressing said spring 13f and tearing off the locking element 13m. The valve 13 preferably also comprises a screw 13a, a washer 13b, a magnet cover 13c, a plug 13d, a reinforcement spring 13n, a pusher 13p, a diaphragm 13q.

The locking element 13m is detached when the magnet 13e is moved under the influence of a clamp 18 connected to the float 16.

Normally closed solenoid valve 13 is equipped with a clamp 24 for installation on the wall of the tank 9 of an aqueous solution of reagents.

The concentrate capacity 8 contains a reagent concentrate in the form of a mixture of essential oils and organic compounds present in plants from the group of terpenes, aldehydes, alcohol and ketone, benzene derivatives, eugenol and vanillin.

In special cases of implementation, the installation was performed with two containers 8 for reagent concentrates and two ejectors 11, each connected in parallel with its own nozzle through a manually operated valve 12 and a normally closed solenoid valve 13 to pump water, the suction chamber - to the corresponding container 8 for reagent concentrate, and the output of the diffuser to the tank 9 for an aqueous solution of reagents. In this case, one container of concentrate 8 contains a reagent concentrate in the form of a mixture of essential oils and organic compounds present in plants from the group of terpenes, aldehydes, alcohol and ketone, benzene derivatives, eugenol and vanillin, and the other container 8 contains isopropyl alcohol, which allows the unit should operate at low ambient temperatures with a minimum consumption of isopropyl alcohol.

At the inlet to the suction chamber of each ejector 11, a replaceable choke 25 made of plastic is installed, which allows you to set the ratio of water to reagent and / or the ratio of two reagents depending on the specific conditions at the facility and the number of nozzles 33.

At the entrance to the nozzle of each ejector 11, a pipe 26 is installed, the length of which is selected from the condition for ensuring the alignment of the plot of water velocities over the cross section of the pipeline 26.

The filter unit 7 for water purification is configured to filter solid particles with a fineness of up to 5 microns.

The gas analyzer 19 is made in the form of a set of gas analyzing sensors for different types of pollutants, for example, the gas analyzer 19 can be made in the form of sensors for the concentration of hydrogen sulfide (H ₂ S), and nitrogen-ammonia compounds (NH ₃ ) in the air.

The installation can be equipped with pressure sensors on the suction of the pumps (not shown) of the pump units 1, 15 connected to the program control unit 21, and is equipped with level sensors (not shown) in the containers 8, 9 connected to the program control unit 21. Weather station 20 is configured to control the direction and strength of the wind, the presence of precipitation, pressure, humidity and ambient temperature.

The program control unit 21 is a computer equipped with a timer 27 for the frequency of switching on, configured to control the pump 15 based on the values of the parameters controlled by the sensors 5, 37 by the gas analyzer 19 and the weather station 20. Pump 1 has an electric motor 30. The pump 15 is controlled by turning on / off its electric motor (not shown) and, if necessary, the speed of its electric motor, therefore, by pump 1. Pressure sensor 5 can be included in the power supply circuit electric motor 30 of the pump unit 1.

The installation is equipped with a heater 28 with a power of 1.5-2 kW, means 29 lighting. In front of the pipeline 26, an element 31 of water filling and / or air discharge is placed in preparation for operation to prevent underpressure on the ejector 11. The pump 15 is connected by a nylon pipe 32 to the nozzles 33. The pipe 32 is equipped with a manometer 34 and a check valve 35 to prevent the pipe 32 from completely emptying when turn off the pump 15. The suction of the pump 15 is carried out through a sieve 36 in the tank 9, at the bottom of which is installed the emptying sensor 37 connected to the block 21.

The installation is operated as follows.

The installation is delivered to the operation object in assembled form, i.e. all equipment included in its composition is mounted on a common rack and interconnected by pipelines with assembly operations from the group: screwing, jointing, riveting, welding, soldering, crimping, flaring. The pump unit 1 is connected by flexible pipelines to the local water supply network (or to tank 2 with water). The pump unit 15 for supplying the working solution with the means available in it, which can be used with quick-coupled hydraulic connectors, is connected to the pipelines 32 located on the object and connected by the nozzles 33. The electric motors of the pumps 1.15, as well as the program control device 21, are connected accordingly to the local electric network (household or industrial). The unit is powered mainly from a conventional power supply network (220 V) with a current of up to 3.6 A.

Calibration of the gas analyzer 19 (and its sensors) is carried out in laboratory conditions in advance using olfactometry. Olfactometry is a measure of odor by the degree of its effect on a person. The smell as a whole represents a certain combination of polluting gases. Accordingly, a certain combination of concentrations of pollutants gas analyzer 10 qualifies as an unpleasant odor. You can also set the sensitivity corresponding to different odor intensities.

Throttle (s) 25 is selected based on the number of nozzles 33, the required concentration and the ratio of parts of the reagent solution and the area of the odor source. However, the adjustment of the ejector (s) 11, as a rule, is not required.

When you turn on the installation of the pump unit 1 and the open position of the valve 6, water is supplied, which is cleaned of mechanical impurities by the filters of block 7. The pressure gauge 4 is visually monitored for the presence of the corresponding pressure, the accumulator 3 provides filling of the connecting pipelines.

The device 21 program control according to the readings of sensors 5, 37, the corresponding means of the gas analyzer 19 on the composition of the air, in particular the content of sulfur and nitrogen compounds (H ₂ S, NH ₃ ), at the facility and according to the readings of the weather station 20 on the presence of precipitation, on the strength and direction wind, as well as pressure, humidity and ambient temperature, calculates the required composition of the working solution - the concentration of reagent concentrates suitable for the chemical conversion of sulfur and nitrogen compounds, as well as the required content of isopropyl alcohol in water and the corresponding flow rate (supply) of the pumping station 15. Taking into account all these data, the device 21 sets the duration of the injection of reagents into the tank 9 by the mixing device 10 and the intervals between injections.

The second tank 8 of reagents containing isopropyl alcohol is used only at negative ambient temperatures to prevent freezing of the aqueous reagent solution.

When the tank 9 is empty and the valve 13 is open, the pump unit 1 delivers water with a pressure of 3 atm and a predetermined flow rate (determined by the rotational speed of the electric motor 30), and the ejectors 11 of the mixing devices 10 supply reagent concentrate and isopropyl alcohol (the latter at low ambient temperatures ) into the stream of water. In this case, the concentrate is diluted with water in proportions from 1: 4 to 1: 800 depending on the intensity of the odor (the content of sulfur and nitrogen compounds) and the meteorological conditions of the installation.

During the operation of each ejector 11, water is supplied from the pump unit 1 to its nozzle through a manual valve 12 and a solenoid valve 13. In the event that the tank 9 is empty, the float 16 is at its bottom, the chain 17 pulls down the clamp 18, which acts to the magnet 13e, providing movement of the locking element 13m and the opening of the valve 13 for supplying water to the suction chamber of the ejector 11.

The accelerated movement of water in the nozzle creates a vacuum in the suction chamber of the ejector 11 connected to the corresponding tank 8 for the reagent concentrate, the latter is mixed with water at the inlet of the diffuser, the outlet of which is connected to the tank 9 for the aqueous reagent solution,

All these components enter the tank 9, from which the suction of the pump unit 15 is carried out through the grid 36, from which they are fed to the nozzles 33 through the pipe 32 in the form of a working solution. The working pressure of the working solution is in the range of 10-20 atm.

If the container 9 is completely filled and there is no selection from the tank 9, the float 16 and the clamp 18, the position of which is determined by the level of the reagent solution in the tank 9, rise, the magnet 13e moves and the normally closed solenoid valve 13 closes. As a result, the flow of water through the flange 14 is blocked by the valve 13 and, therefore, the flow of water into the nozzle and the outflow of the solution from the diffuser of the ejector 11 is stopped, and the pump 1 fills the battery 3, if necessary. The centrifugal pump 1 can be turned off or continue to rotate its rotor (impeller) without water supply.

In the case of the beginning of the selection from the tank 9, the float 16 and the clamp 18 are lowered and the liquid from the pressure accumulator 3 enters the ejector 11, and the reagent concentrate enters the reservoir 9. After the water in the accumulator 3 is used up, the water flows from the pump 1, at the same time, the accumulator 3 is refilled.

When the container 9 is completely empty, the sensor 37 transmits the corresponding report to the device 21, which takes it into account when determining the health of the installation. In the absence of the discharge pressure of the pump unit 1, the sensor 5 transmits the corresponding report to the device 21, which takes it into account when determining the health of the installation. According to the extreme values of the signals of the sensors 5 and / or 37, if necessary, the pump units 1 and 15 can be turned off.

The nozzles 33 spray the working solution and thereby create a wet curtain that separates the protected object from unpleasant odors from unorganized sources. The installation is most effective when the working solution is sprayed into the atmosphere near and above the source of the smell. The reagents sprayed by nozzles 33 do not mask an unpleasant odor, replacing it with a more pleasant one, but destroy its carriers, cause and accelerate the natural processes occurring during the biodegradation of waste, transforming foul-smelling gases into harmless and odorless air. For example, in order to eliminate odor in open sewage treatment plants, the solution should be sprayed near its source or around the perimeter of the territory.

The reaction mechanism for air purification using an aqueous solution of the reagent concentrate is complex and includes the following steps.

1. Decomposition

Concentrate-NH ₃ + odor-SH + O ₂ + H ₂ O> concentrate-NH ₂ + SO ₄ ^2- + H ₂ O.

2. Absorption

The use of polar and van der Waals forces.

3. Condensation

Concentrate-COOH + odor-NH ₃ > concentrate-COONH ₄

4. Connection

Concentrate-COOH + odor-OH> concentrate-COO-odor + H ₂ O (odorless).

The installation provides for the possibility of working in winter at a negative ambient temperature. For this, isopropyl alcohol is added to the working solution in the container 9. The addition of isopropyl alcohol is carried out in the ratio shown in the following table, which prevents the freezing of the working solution of the concentrate in a plant operating outdoors in the winter.

The device 21 in conjunction with the weather station 20 and the gas analyzer 19, as well as with the pump unit 15 allows the most appropriate way to change the quantity and composition of the working solution supplied to the nozzles 33 depending on external factors (ambient temperature, wind force, pressure, odor intensity), which, in addition to the ability to set the spray time and the interval between them, increases the efficiency of the installation with respect to optimizing the consumption of reagent concentrate and isopropyl alcohol, i.e. allows you to save consumables. With this function, it is impossible to “slip through” the smell of low intensity, for which the minimum spraying time and the maximum interval of the working solution to the nozzles 33 are set. The device 21 will take readings from the weather station 20 and the gas analyzer 19 in real time to set the parameters for turning the equipment on and off, as well as record and store previously taken readings. The simultaneous operation of the weather station 20 and the gas analyzer 19 and the simultaneous software processing by the device 21 of the signals of the weather station 20 and the gas analyzer 19 is a prerequisite for optimizing the operation of the installation, since many of the data measured by them have a multidirectional effect on the required flow rates of water and reagents and should therefore be taken into account in conjunction with taking into account the mutual influence on the implementation of the conversion of foul-smelling gases into harmless and odorless air, water and some solid precipitation.

The operation of the valve 13 and the ejector 11 is also a necessary condition for optimizing the operation of the installation, eliminates unproductive losses and spillage of reagents and solution from the tanks 8, 9 out.

Since the weather station 20 controls the direction and strength of the wind, the presence of precipitation, pressure, temperature, simultaneously with the gas analyzer 19, which carries out continuous or periodic (depending on the state of the atmosphere) control of the composition and intensity of the smell, the device 21 has the ability to take into account their readings and control by complex the program by the operation of the pump unit 15. This increases the efficiency of odor neutralization and provides the opportunity to reduce operating costs for concentrate and isopropyl alcohol, and power consumption. The presence of a normally closed valve 13 on the water supply line to the ejector 11 allows you to interrupt the water supply to the ejector 11, therefore, the working solution to the nozzles 33 when filling the tank 9, without turning off the pump unit 1, the drive motor of which, when turned on again, can significantly load the starting network electric current. Reducing the number of on / off pump unit 1 increases the duration of reliable operation of the installation. In the event of accidental closure of pipelines 32, breakdown of pump 15 or clogging of nozzles 33, valve 13 prevents losses and spills of water and reagent solution at the place of operation. Pumping units 1, 15, valve 13 and ejector (s) 11 allow you to quickly, i.e. in real time, without delay, turn on / off the process of spraying the working solution with nozzles 33, and also change the concentration of the working solution, as well as its properties, depending on real adverse weather conditions and odor intensity due to the direct supply of concentrate and isopropyl alcohol (preventing freezing) into the stream water and the continuous formation of a working solution.

Mounted equipment of the installation can be heated in a casing or case using a heater 28, for a visual inspection of the equipment and checking the readings of pressure gauges 4, 34, lighting means 29 are turned on.

The installation provides full automation of the process with an increase in reliability due to the elimination of the human factor, which can lead to inappropriate consumption of components of the working solution or equipment breakdown due to erroneous actions of personnel.

Claims (15)

1. Installation for eliminating unpleasant odors, comprising a centrifugal pumping unit for pumping water, a pressure accumulator, a manometer, a water pressure sensor, a tap and a filter unit, and at least one container for reagent concentrate, a container for an aqueous solution of reagents and a mixing device comprising at least one ejector connected by its nozzle through a valve and a normally closed valve to water forcing, and a suction chamber to a container for concentrate gents, and the outlet of the diffuser to a container for an aqueous solution of reagents connected to the suction of the pump unit for supplying a solution of reagents to the spraying means, and the tank for an aqueous solution of reagents is equipped with a float connected by a ball chain to a clamp installed with the possibility of acting on a normally closed valve, at the same time, the installation is equipped with a gas analyzer, a weather station, as well as with a pump control unit for supplying a solution of water, connected to the latter and with a water pressure sensor Gent. 2. Installation according to claim 1, characterized in that the normally closed valve is made with a spring, at the ends of which there is a locking element and a permanent magnet installed with the ability to move the locking element under the influence of a clamp connected to the float in a tank for an aqueous solution of reagents. 3. Installation according to any one of paragraphs. 1, 2, characterized in that the normally closed solenoid valve is equipped with a clamp for mounting an aqueous solution of reagents on the wall of the tank. 4. Installation according to any one of paragraphs. 1, 2, characterized in that the concentrate tank contains a reagent concentrate in the form of a mixture of essential oils and organic compounds present in plants from the group of terpenes, aldehydes, alcohol and ketone, benzene derivatives, eugenol and vanillin. 5. Installation according to any one of paragraphs. 1, 2, characterized in that it is made with two containers for reagent concentrates and a mixing device with two ejectors, each connected in parallel with its own nozzle through a manually operated valve and a normally closed solenoid valve for pumping water, the suction chamber - to the corresponding container for concentrate reagents, and the diffuser exit - to the tank for an aqueous solution of reagents. 6. Installation according to claim 5, characterized in that one container of the concentrate contains a reagent concentrate in the form of a mixture of essential oils and organic compounds present in plants from the group: terpenes, aldehydes, alcohol and ketone, benzene derivatives, eugenol and vanillin, and the other - isopropyl alcohol. 7. Installation according to any one of paragraphs. 1, 2, 6, characterized in that at the entrance to the suction chamber of each ejector a replaceable choke made of plastic is installed. 8. Installation according to any one of paragraphs. 1, 2, 6, characterized in that at the entrance to the nozzle of each ejector a pipeline is installed, the length of which is selected from the condition of ensuring equalization of water velocities over its cross section. 9. Installation according to any one of paragraphs. 1, 2, 6, characterized in that the filter unit for water purification is configured to filter solid particles with a fineness of up to 5 microns. 10. Installation according to any one of paragraphs. 1, 2, 6, characterized in that the gas analyzer is made in the form of a set of gas analyzing sensors for various types of pollutants. 11. Installation according to any one of paragraphs. 1, 2, 6, characterized in that the gas analyzer is made in the form of sensors for the concentration of hydrogen sulfide and ammonia (H ₂ S, NH ₃ ). 12. Installation according to any one of paragraphs. 1, 2, 6, characterized in that it is equipped with pressure sensors on the suction of the pumps of the pump units, connected to the program control unit. 13. Installation according to any one of paragraphs. 1, 2, 6, characterized in that it is equipped with level sensors in containers connected to the program control unit. 14. Installation according to any one of paragraphs. 1, 2, 6, characterized in that the weather station is configured to control the direction and strength of the wind, the presence of precipitation, pressure, humidity and ambient temperature. 15. Installation according to any one of paragraphs. 1, 2, 6, characterized in that the program control unit is a computer equipped with a timer for the periodicity of switching on.

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