RU2016632C1 - Gas cleaning scrubber - Google Patents

Abstract

FIELD: cleaning equipment. SUBSTANCE: scrubber has contractor 1, throat 2, diffuser 3, nozzle members 4 at the outlet of diffuser 3. The nozzle members are made in the form of pipes. Triangular or of any other form holes with centers in the vertexes of equilateral triangles are made in the pipe walls. Baffles 6 equal to the holes in area may be made above the holes. The baffles are alternately bent outside and inside the pipes. EFFECT: improved structure. 2 cl, 7 dwg

Description

 The invention relates to the field of wet cleaning of gases containing solid, liquid (dust, aerosols, mists) and gaseous impurities, and can be used in energy, chemical, petrochemical and other industries.

 Known heat and mass transfer apparatus with a nozzle in the form of assembled in a package and located one above the other cells formed by separate plates. The lower parts of the plates in adjacent coaxial cells are alternately made curved outward in the form of deflectors and inward in the form of nozzles, and injection slots are made between vertically adjacent cells.

 However, in view of the fact that the known apparatus works in countercurrent, there is a speed limit for dusty gas (not more than 7 m / s). Otherwise, a choking phenomenon is observed.

 Known as a prototype is a wet dust collector (scrubber) for cleaning gas from solid and liquid particles, containing a confuser, a neck, a diffuser with an outlet chamber equipped with a nozzle in the form of vertical pipes made with turbulators.

 The known wet dust collector as a direct-flow apparatus is capable of operating at significant speeds of dusty gas, and significantly contaminated water can be used as irrigation liquid without the risk of clogging or rapid abrasive wear of nozzle openings of the irrigation nozzle. However, the efficiency of dust collection in a known wet dust collector is far from really achievable if the diffusion mechanism of dust collection in the packed part is fully used, due to the imperfection of its design. The imperfection of the nozzle part causes significant energy consumption, as to achieve the required dust collection efficiency, it is necessary to narrow the neck of the venturi, where there is an inertial dust collection mechanism.

 These shortcomings are eliminated by the proposed technical solution.

 The aim of the invention is to increase the efficiency of capture of solid, liquid, various dispersion and gaseous impurities by increasing the degree of turbulization of the flow and the contact surface of the phases, as well as reducing energy consumption.

 This goal is achieved by the fact that in a gas scrubber containing a confuser, a neck, a diffuser with an outlet chamber equipped with a nozzle in the form of vertical pipes made with turbulators, the latter are made in the form of holes of geometric shape placed at levels in the walls of pipes marked on each level along the vertices of an equilateral triangle.

 This goal is also achieved by the fact that over the holes in the walls of the pipes can be made visors, equal in size to the holes and bent alternately outward and inward pipes.

 The claimed solution provides significant turbulization of the dust-gas-liquid flow in the nozzle part and creates a developed phase contact surface, i.e. fully implements the mechanism of turbulent deposition, which leads to an increase in the efficiency of capture of aerosol and dust particles and deep cleaning of gas impurities. In addition, the proposed design of the scrubber can be used in various high-speed modes for the efficient capture of dusts, aerosols, which differ in dispersion.

 In FIG. 1 shows the described gas scrubber; in FIG. 2 is a section AA in FIG. 1; in FIG. 3-5 - some options for holes in the nozzle tubes; in FIG. 6, 7 — a method for attaching nozzle tubes in support grids.

 The scrubber contains a confuser 1, a neck 2, a diffuser 3, in the lower part of which there are nozzle elements 4 in the form of vertical pipes. The tubular nozzle elements have openings 5 in the walls. Visors 6 can be located above the openings, the openings 5 being equal in size to the openings 5, placed with markings along the vertices of an equilateral triangle. Visors alternately can be bent outward and inward tubular nozzle elements. The tubular nozzle elements are fixed by supporting grids 7 having transverse plates 8. The fluid is supplied to the dust collector by nozzle 9. The elements 4 are placed in the outlet chamber 10.

 The dust collector operates as follows. The contaminated gas is fed into the confuser 1, in which it is irrigated with liquid from the nozzle 9, and then, having received the maximum speed in the neck 2, it enters the diffuser 3 and is sent to the elements 4. The holes 5 in the walls of the nozzle elements contribute to better flow mixing. The presence of the visors 6 contributes to the additional turbulization of dust and gas-liquid flow.

 It should be noted that the proposed design can operate in various speed modes depending on the dispersed composition of the captured dust particles.

 With sufficiently large particle sizes, the apparatus can operate at low gas velocities (up to 5 m / s), then it works as a nozzle scrubber: the irrigation fluid, moving in a direct flow with a downward gas flow, flows down the nozzle elements in the form of a film.

 At high gas velocities, the upper part of the apparatus takes over the main load, in which the dust-gas-liquid flow develops a high speed. Further dust collection occurs in the nozzle, where the flow has a high degree of turbulization and a developed contact surface. This mode of operation is designed to capture micron and submicron dust.

 The length of the nozzle and the high-speed mode of operation of the apparatus are determined by the properties of the dusty medium and the size of the captured particles.

 Drop collection and removal of liquid with trapped dust is carried out by known methods.

 Thus, the proposed solution allows to expand technological capabilities and increase the efficiency of collecting dust particles with a wide dispersed composition.

Claims (2)

 1. SCRUBER FOR CLEANING GASES, containing a confuser with a nozzle, a neck, a diffuser with an outlet chamber equipped with a nozzle in the form of vertical pipes, characterized in that, in order to increase the efficiency of the process of collecting solid, liquid of various dispersion and gaseous impurities by increasing the degree of turbulization of the stream and the contact surface of the phases and reduce energy costs, the pipes are made with holes of geometric shape, placed at levels in the walls of the pipes with markings at each level along the vertices of an equilateral treug flax.  2. The scrubber according to claim 1, characterized in that the walls of the pipes are made with peaks above the holes, the same last in area, and bent alternately to the outside and inside of the pipes.

Images