RU2054306C1 - Gas scrubber - Google Patents

Abstract

FIELD: scrubbing of gases. SUBSTANCE: scrubber is made as a cylindrical casing with a tangential inlet pipe in its lower part, slime outlet pipe, support grating with a layer of packing, and sprinkling device above. The grating has the form of perforated conical surface with a sloping angle equal to angle of repose of packing, with a louvered water baffle underneath. The support grating has a provision for vertical movement. Disposed in the upper part of the casing is a packing loading batcher while its middle part has side openings for unloading the clogged packing. EFFECT: improved design. 1 dwg

Description

 The invention relates to wet cleaning of gases from dust and harmful components with scrubbers with nozzles and can be used in the construction materials industry, metallurgical, chemical and other industries.

Known nozzle gas washer, consisting of a column with inlet and outlet nozzles, as well as with a nozzle for removing sludge filled with bodies of various shapes (nozzle), filled up on the support grid, while irrigating liquid is fed to the nozzle from above using a distribution device [1]
The disadvantage of this nozzle scrubber is the frequent clogging of the nozzle and the difficulty of replacing it.

Closest to the invention in technical essence and technical result is an apparatus for wet gas purification, comprising a housing with an inlet pipe in the lower part, a pipe for the outlet of the purified gas in the upper part, a perforated support grid with a nozzle layer mounted on the rod with the possibility of vertical movement, irrigation device located above the nozzle [2]
A disadvantage of the known apparatus for wet cleaning of gases is the relative complexity of the design and the impossibility of its use for cleaning gases containing medium and highly sticky dust (in particular soot).

 The essence of the invention lies in the fact that in the apparatus, made in the form of a cylindrical body with a tangential inlet pipe in its lower part, a pipe for the outlet of purified gas in the upper part), a pipe for removing sludge, a support grid with a nozzle layer over which an irrigation device is installed is made in the form of a perforated conical surface having a slope angle equal to the angle of natural slope of the nozzle used, with a louver baffle mounted on the rod under it with the possibility of vertical displacements on the piston rod, in the upper housing part is mounted boot dispenser nozzle, and the secondary side windows are made for discharging the slaughtered nozzle deposits.

 The invention improves the efficiency of cleaning dusty gases due to the fact that the apparatus is a combined system having two cleaning stages, a first cyclone with a water film and a second nozzle gas scrubber.

 The drawing shows a wet cleaning apparatus, a longitudinal section.

 The apparatus for wet cleaning of gases has a cylindrical body 1 with a tangential inlet pipe 2, an output pipe 3 and a pipe 4 for outputting sludge.

 In the middle part of the housing 1, a support grid 5 is installed, made in the form of a perforated conical surface, mounted on a rod 5, mounted in the support 7 with the possibility of free movement in the vertical direction. A layer of nozzle 8 is poured onto the support grid 5, over which an irrigation device 9 is located.

 On the stem 6, under the support grid 5, a louvre baffle 10 is formed, formed by coaxial straight circular cones without bases located one below the other at a certain distance, all cones except the top are truncated and the diameter of the upper circle of each is less than the diameter of the imaginary base of the cone located above him.

 In the upper part of the housing 1, the dispenser 11 of the nozzle 8 with the hopper 12 and the guiding funnel 13 is mounted along the axis. In this case, to ensure an equal thickness of the layer of the nozzle 8, which is poured by the dispenser 11 onto the support grid 5, the angle between the generatrix of the cone of the lattice and its imaginary base is equal to the angle of the natural slope of the used nozzle.

 In the lower part of the housing 1 there are two discharge windows 14, closed with the covers 15 during operation of the apparatus. Under the loading windows 14, tray slopes 16 are installed on the outside of the housing 1.

 The apparatus for wet gas purification works as follows.

 The fluid through the irrigation device 9 is fed to the nozzle layer 8, poured onto the perforated support grid 5, passes through the nozzle layer 8 and flows through the louvre baffle plate 10 to the inner surface of the wall of the housing 1, forming a continuously flowing film of water on it.

 Dusty gas through the inlet pipe 2 is tangentially introduced into the lower part of the apparatus body 1, where, falling on a film of water continuously flowing down the wall, it is first cleaned of dust. Further, freely passing the louvre baffle plate 10, the gas passes through the nozzle layer 8 with continuously irrigated liquid, where it is secondarily (finally) cleaned of dust and removed from the apparatus through the outlet pipe 3. Sludge is removed from the apparatus through the nozzle 4.

 When the nozzle 8 becomes clogged with dust deposits, it is quickly replaced. In this case, the rod 6 is lowered to its lowest position until the lower edge of the support lattice 5 is aligned with the lower edge of the unloading windows 14, the covers 5 are opened and the nozzle is unloaded from the apparatus via the chute descents 16. After unloading the clogged nozzle, the windows 14 are closed with covers 15, and the stem 6 is returned to its original position. To fill the new layer of the nozzle include a dispenser 11 and from the hopper 12 to the support grid 5 serves the required number of nozzles. The presence of the guide funnel 13 prevents the nozzle elements from entering the irrigation device 9.

 The installation of the support lattice 5 on the rod 6 with the possibility of free movement in the vertical direction has two objectives. Firstly, this is the implementation of the cleaning process: when changing the height of the nozzle layer 8, the support grid 5 is set in a vertical direction so that the distance between the upper level of the nozzle layer and the irrigation device 9 remains constant (minimum), which ensures the highest efficiency of irrigation fluid supply. Secondly, after the nozzle is clogged with dust deposits, lowering the rod 6 to a position until the lower edge of the support lattice 5 is aligned with the lower edge of the discharge windows 14 and the nozzles are opened, the nozzle is unloaded, while to facilitate the process of unloading the support lattice 5 by means of the rod 6, slight vibration can be reported .

 Using the device allows you to mechanize the process of replacing the nozzle clogged with dust deposits, the presence of a dispenser makes it possible to regulate the hydraulic resistance of the device by changing the height of the nozzle layer, the device is highly efficient as an absorber (for cleaning of harmful gases), the design is simple and low material consumption.

Claims (1)

 WET GAS CLEANING APPARATUS, comprising a housing with an inlet nozzle in the lower part, a nozzle for the outlet of purified gas in the upper part, a perforated support grid with a nozzle layer mounted on the stem with the possibility of vertical movement, an irrigation device located above the nozzle, characterized in that it is equipped with a loading nozzle dispenser located in the upper part of the casing and a louver baffle mounted on the rod under the support grid, while the support grid has a conical surface with an angle m slope equal to the angle of repose of the nozzle, and the inlet is brought tangentially.

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