RU2179059C1 - Device for sorption neutralization of gases - Google Patents

Abstract

FIELD: apparatus for cleaning gases at neutralization of toxic components by concentrating them on granulated solid sorbent in stationary layers. SUBSTANCE: proposed device has through passage for delivery of gas to be cleaned which is provided with inlet and outlet branch pipes; this passage is connected with suction fan; device is also provided with two-section vertical reactor filled with bulk adsorbent. Device is provided with separator mounted in succession with reactor on common mobile platform; this separator is provided with casing where partition is mounted at clearance; device is also provided with receiving reservoir equipped with easily detachable clamp. Nozzles of self-contained air counterflow blowing system are mounted in partitions where gastight envelope are located; receiving reservoir is located under casing and detachable sections of reactor are arranged above perforated diaphragm of through passage. EFFECT: increased productivity; possibility of regeneration of filter elements and layer-by-layer rotation of carbon adsorbent; extended technological capabilities; enhanced functional reliability of components and device as a whole. 4 cl, 3 dwg

Description

 The invention relates to apparatus for cleaning gases in the neutralization of harmful components through their concentration on a granular solid sorbent in stationary layers.

 The prior art characterizes a device for sorption neutralization of gases according to the invention RU 2153926, B 01 J 8/02, published 10.08.00 in bull. N 22, which, according to the technical nature and the number of matching features, is selected as the closest analogue to the proposed technical solution.

 The known device comprises a through-channel for supplying the gas to be cleaned, equipped with inlet and outlet pipes, connected to a suction fan, a two-section vertical reactor filled with a bulk adsorbent, a casing where a dividing wall with windows is fixed with a gap, and a receiving tank with a quick-detachable clip.

 The reactor is mounted inside a coaxial casing, separated by a transverse baffle. The partition windows are made in rotor locks located in the reactor and connected with its sections by conical slides inclined at an angle of repose for a bulk adsorbent.

 The upper section of the vertical reactor is closed by a lid and equipped with a communication fitting with adsorbent pneumatic transport, and an unloading screw is mounted at the inlet of the reactor above the gate of the adsorbent unloading pipeline, the end of which is equipped with a quick-detachable clamp and closed by a lid.

 The known device provides automatic loading of granular adsorbent into the reactor, its movement in sections under the action of gravity and forced mechanical discharge into the receiving tank, which increases the efficiency of sorption gas purification while improving its quality with the rational use of less adsorbent and reducing the interoperation time .

 However, the disadvantage of the prototype is a narrow purpose for the sorption neutralization of residues of poisonous gases after burning in a furnace, which is not possible to use for cleaning aerosols, that is, gases with solid-phase inclusions, carrying out their separation.

 The task that underlies the present invention is to expand the technological capabilities of the device and its field of use.

 The required technical result is achieved by the fact that the known device for the sorption neutralization of gases, comprising a through-gas supply channel equipped with inlet and outlet nozzles, connected to a suction fan, a two-section vertical reactor filled with a bulk adsorbent, is equipped with a separator in series with the reactor on a common mobile platform with a casing, where a separation partition is fixed with a gap, as well as a receiving container with a quick-release clip, and into the skin e coaxially windows of the partition wall, in which the gas-permeable membrane placed further set autonomous air nozzle countercurrent blowdown receptacle is placed under the cover, and the reactor section are located above the perforated diaphragm through channel and are removable.

 At the suggestion of the authors, the gas-permeable shells of the windows of the vertical partition of the casing are made with a developed surface, mainly radially directed in a zigzag shape, and guide shutters are installed at the inlet of the reactor, and the outlet pipe is equipped with a throttle valve.

 Distinctive features ensured the expansion of the technological capabilities of the device for gas purification with particulate inclusions, which can be used for mechanical cleaning of repaired, destroyed premises where work with harmful and toxic substances was carried out, for preventive cleaning of industrial premises from dust with settled harmful condensate.

 Sequential installation on a moving platform of a separator with a casing with a dividing wall equipped with windows and a vertical two-section reactor filled with a bulk adsorbent made it possible to increase the functional reliability of the device due to mobile manual transportation to hard-to-reach areas of the treated premises and additional implementation of membrane physical filtering of purified gases in the reactor the diaphragm under the sections, as well as perform the functions of decontamination of office premises, in which work was carried out with harmful and toxic substances with their disposal, post-emergency, etc. premises. At the same time, dust and solid particles, debris, which are separated inside the casing and collected in a receiving tank, are removed together with the gases.

 Placing gas-permeable shells with a developed surface inside the partition walls allows mechanically retaining solid inclusions in the casing, carrying out coarse aerosol cleaning, membrane filtration of the treated gas stream and, therefore, using the device as an automatic collection of solid debris from the treated room, forcibly removing it by discharge in the through channel created by the suction fan.

 The installation of countercurrent blowing nozzles of compressed air inside the gas-permeable shells of aerosol filters provides for the regeneration of the porosity of these shells and the automatic collection of solid sludge in a receiving tank, which is insulated by a quick-release clamp, by gravity.

 The separation of solid inclusions, combined with membrane filtration of the treated gases and aerosols, is carried out in a hermetically sealed volume of the casing.

 A quick-detachable retaining clamp provides a mobile change of the receiving tank with the fastening of its neck on the output conical slime of the casing by means of lever couplings.

 The execution of the sections of the vertical reactor removable ensures their autonomous replacement as they become dirty and allows more efficient use of the adsorbent by moving the lower section less loaded in operation to the top instead of the removed one unsuitable for further use as intended.

 The placement of the sections of the vertical reactor above the perforated diaphragm of the through channel provides a fine cleaning of the air output device from mechanical breakaway particles of coal adsorbent.

 The implementation of the surface of the gas-permeable shell of the windows of the vertical partition in the form of radially directed zigzags multiplies its area with a minimum of occupied space in the casing to ensure the expressivity of the filtration process (mechanical separation of solid particles on the surface of the shell) and increase the service life.

 Autonomous purging of the aerosol filter shells in the partition windows allows you to actively control the quality and effectiveness of preparing the channels for productive work.

 Directional blinds ensure the distribution of gas flow over the entire surface of the adsorbent layer in the section, which creates a uniform working load and increases the efficiency of sorption neutralization of gases.

 The throttle in the outlet pipe of the through channel of the device provides the necessary adjustment of the hydraulic resistance in the system and, therefore, the specified performance in the dynamics of the sorption and filtration process.

 Based on the foregoing, we can conclude that each essential attribute is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of quality, a new super-effect that is not inherent in the signs of disunity, that is, the sum effect is obtained, and not the sum of effects.

 A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a chemical protection specialist, allows us to conclude that it is unknown, and provided that technical reproduction is possible at a regular industrial enterprise, it meets the patentability criteria.

The invention is illustrated by drawings, which depict:
in FIG. 1 is a schematic general view of a device;
in FIG. 2 - same, left view;
in FIG. 3 - filter element of the separator.

 The device is a structurally aggregated system of functional elements mounted on a common platform 1, equipped with rotary pairs of wheels 2: a separator 3 with an inlet pipe 4, a reactor 5 (adsorber) and a suction fan 6 connected by a through channel 7 for supplying cleaned gas.

 Inside the casing 8 of the separator 3 with a gap, a vertical dividing wall 9 is installed, having longitudinal windows 10 distributed in the volume (Fig. 2), inside of which aerosol filters 11 are mounted, made in the form of a radially directed zigzag shell (Fig. 3) of porous paper with an area 32 sqm

 Coaxial to the central channel 12 of each filter 11 is a nozzle 13 connected through a valve gate 14 to an autonomous source of compressed air 15.

 Under the conical slice 16 of the casing 8 there is a receiving container 17 (trolley) conjugated with a neck, which are fastened to each other by means of a quick-release retaining clamp 18 with hinged lever locks 19.

 The vertical adsorber 5 contains at least two removable sections 20 and 21, respectively, the upper and lower, filled with activated carbon 22 grade AG-PR, TU 6-15-10288-44-0.25-91 with a granule size: diameter 3 mm, length 3 ... 4 mm - porous adsorbent.

 Section 21 is mounted on a perforated diaphragm 24 of filter material that blocks the exit to the through channel 7.

 Guiding shutters 24 are mounted above the upper section 20 to distribute the gas flow over the entire end surface of the adsorbent layer 22.

 At the outlet of the adsorber 5, a suction radial fan 6 of type BP 120-28-5 is mounted.

 In the outlet pipe 25 of the through channel 7, a rotary throttle valve 26 for regulating the hydraulic resistance of the system (not more than 1.2 kPa) is mounted for varying the performance and quality of gas purification.

 The device operates as follows.

From the treated room with a discharge of up to 5.0 kPa created by the suction fan 6, air, gases, dust, solid particles with harmful and poisonous substances of mass concentration condensed to them no more than 1.0 g / m ³ are drawn into the device, that is, it performs functions of an industrial vacuum cleaner.

 The aerosol stream through the inlet pipe 4 enters the separator 3, filling the cavity of the casing 8 through the gaps, while the solid particles are trapped on the surface of the filter shells 11, and gaseous products penetrate the central channels 12 through the porous paper of the shell radial zigzags - aerosol is mechanically filtered.

 As accumulation of a layer of solid sludge on the developed surface of the filter shells 11, the gas filtration performance decreases, therefore, the valve gates 14 are automatically switched sequentially bypassing compressed air from the source 15 to the nozzles 13 of the filters 11. The compressed air flows countercurrent to the flow of aerosol to the filtration by a pulse at pressure 0 , 3 ... 0.6 MPa through the channel 12 to the filter shell 11 from the inside and forcibly blows off the sludge from its outer surface, which is poured into the tank along the conical slice 16 of the casing 8 17, which settles and accumulates. Thus, the regeneration of the filtering elements 11 takes place and the filtration of the sucked-in aerosol from the treated room is maintained, which separates solid particles for recycling and gaseous products for further cleaning.

 Monitoring the working state of the filters 11 is carried out by the pressure difference at the inlet of the casing 8 and in the channel 7 between the separator 3 and the reactor 5. Autonomous blowing with compressed air of each filter 11 through the nozzles 13 from the source 15 allows you to check the integrity of their shells, in violation of which a given pressure drop not restored. In this case, the filters 11 are replaced through the end of the windows 10 of the partition 9.

 Further, gaseous products are fed through the channel 7 to the adsorber 5 and are equally distributed by the guides of the blinds 24 along its cross section, while weakly concentrated harmful substances are actively deposited on the developed surface of the highly porous adsorbent 22.

Then, practically purified air flows jet into the second lower section 21, where, similarly to the previous one, sorption neutralization of air occurs upon contact with bulk coal adsorbent 22. Fully purified air with a mass dust concentration of not more than 0.003 g / m ³ through the diaphragm 23 of the through channel 7, on which solid particles of coal adsorbent 22 are delayed, discharged through channel 7 into the atmosphere.

 Turning the throttle valve 26 in the outlet pipe 25 changes the flow area, and therefore, the hydrodynamic resistance and the regime of gas flows inside the device, which affects the speed and quality of cleaning.

 Monitoring the state of the adsorbent 22 is carried out by sampling to determine its activity and degree of contamination. If the activity of adsorbent 22 decreases below the level of the set efficiency of air purification with the fan 6 turned off, the removable sections 20 and 21 are rotated with the diaphragm 23 replaced. In place of the section 20 with utilized adsorbent 22, section 21 is installed in which the adsorbent 22 is suitable for further efficient neutralization of the treated air in the first upper stage of sorption, and down the reactor 5 install a section with a clean adsorbent 22.

 Periodically, as filling, the receiving tank 17 is removed. Then, on the conical slice 16, by means of a retaining clamp 18, the combined neck of the new empty container 17 is fixed and the position is secured by the lever couplings 19.

 The device is equipped with a shield with devices for monitoring the hydraulic resistance of aerosol filters 11, controlling the regeneration of the adsorbent 22 in sections 20, 21 of the reactor 5 and the fan starter 6.

 The sequential placement of the functional elements of the device: separator 3 and reactor 5 (adsorber), connected by a common through channel 7 for supplying cleaned air, with separate controlled regeneration of aerosol filters 11, automatic collection of sludge, rotation of sections 21 and 20 of reactor 5 with the replacement of adsorbent 22 when regulating the hydrodynamic the operating mode of the installation, allowed to improve the quality of treatment of the treated air and the degree of neutralization of harmful and toxic substances contained in it.

 Placing the device on a movable platform 1 allows you to manually manually deliver it to hard-to-reach areas of the treated premises, quickly carry out local work to neutralize pollution by toxic and harmful substances.

Tests of the prototype of the proposed device with a capacity of 1000 m ³ / h with dimensions of 930x1900x3400 mm and a mass of 740 kg, consuming power of 7.5 kW, confirmed the achievement of the objectives of the invention to ensure the specified quality and efficiency of neutralization of the treated air and the mobility of cleaning infected rooms.

 Currently, technical documentation has been prepared for the manufacture of an industrial batch of mobile units according to the claimed invention.

Claims (4)

 1. A device for sorption neutralization of gases, containing a through channel for supplying the gas to be cleaned, equipped with an inlet and outlet, connected to a suction fan, a two-section vertical reactor filled with a bulk adsorbent, characterized in that it is equipped with a separator with a casing, mounted in series with the reactor on a common mobile platform, where a separation partition is fixed with a gap, as well as a receiving container with a quick-detachable clip, moreover, in the casing, it is aligned with the windows of the separation partition odki in which the gas-permeable membrane placed further set autonomous air nozzle countercurrent blowdown receptacle is placed under the cover, and the reactor section are located above the perforated diaphragm through channel and are removable.  2. A device for the sorption neutralization of gases according to claim 1, characterized in that the gas-permeable shells of the windows of the vertical partition of the casing are made with a developed surface of a predominantly radially directed zigzag shape.  3. A device for the sorption neutralization of gases according to claim 1 or 2, characterized in that guide shutters are installed at the inlet of the reactor.  4. A device for sorption neutralization of gases according to any one of the preceding paragraphs, characterized in that the outlet pipe is equipped with a throttle valve.

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