PL97488B1 - METHOD OF PURIFYING GAS FROM STEEL POLLUTION, DROP AND MIST, AND DEVICE FOR PURIFYING GAS FROM SOLID POLLUTION, DROP AND MIST - Google Patents

Description

The subject of the invention is a method of purifying gases from solid contaminants, droplets and mists and a device for the application of this method, especially in the sulfuric acid industry. So far, there are known methods of purifying gases from solid contaminants, drops and mists consisting in spraying a gaseous stream of liquid, passing the gas-liquid-solid mixture through a fibrous bed and separating the first fraction in the form of solids free gas, mist and droplets from the second fraction as an effluent containing suspended solids in a liquid. Fibrous filters are used to apply the known methods of gas purification. Filters with a high or lower fiber packing density are known. Filters characterized by high density of fiber packing are intended for aerosols with small particle diameters. The dominant mechanism for the removal of aerosol particles is diffusion deposition. These filters, exhibiting high flow resistance, require low gas velocities and therefore large filtration surfaces. On the other hand, fiber filters, characterized by a lower packing density, are intended for aerosols with large diameters. Removal of aerosol particles is based on inertial deposition. These filters require high gas velocities and therefore have small filtration areas. A major problem is choosing filters with a given density of fiber packing. Fiber filters in the purification of gases containing contaminants that are constantly next to the fog, clog and are not intended for the purification of gases containing contaminant particles of various sizes. Since in industrial practice aerosol pollutants are a collection of particles of various diameters, fiber filters are of little use. It is also known to use preliminary coagulation to remove dust from gases. This problem was described in "The newest design solutions in the construction of chemical apparatus 1963/64", Nowa Technika, issue 53, pp. 110-111, WNT Warsaw 1965. In this case, only coagulation is used. stormy flow effect. In order to obtain the appropriate coagulation effects, it is necessary to use high gas flow rates in the cyclones, which in the separation of liquid aerosol particles is disadvantageous due to the secondary disintegration effects of the liquid associated with the flow of gas at a high speed near the exposed surfaces of the liquid film. The invention consists in the coagulation of aerosol particles by means of turbo-lent pulsations in the gas stream, molecular diffusion, inertial collisions and the separation of aerosol particles on filter baffles. For this purpose, the contaminated gas is introduced into the tube, through which it flows at a speed of 20-60 m / sec to a part of the apparatus with a cross-sectional area at least ten times larger than the cross-sectional area of the tube. The gas flow from the tube is accompanied by turbulent pulsations in the gas stream leading to coagulation of the fog particles. At a distance of not more than three times its diameter from the ridge, there is a barrier made of a porous material such as filter cloths, chips, mesh, etc., followed by a rigid impermeable barrier, for example made of steel sheet. The gas flowing from the nozzle onto this partition changes its flow direction by 180 °. When the gas impinges on the porous barrier and the impermeable barrier, aerosol particles of larger diameters inertly deposit thereon. In the area of the porous barrier, the concentration of aerosol particles increases, which leads to increased coagulation caused by molecular diffusion. After changing the flow direction by 180 °, the gas is led to the filtration wall, on which the separation of large aerosol particles relatively easily occurs. In the method according to the invention, using the described device, an increased molecular diffusion and inertial collision of aerosol particles are achieved, by which their coagulation and separation on the fabrics forming the appropriate partitions are achieved, from which they are easily removed, together with the liquid flowing on them by gravity. In particular, the method and the device according to the invention are shown in the example of the drawing, Fig. 1 shows the device in a vertical section, and FIG. 2 is a cross sectional view. The device consists of a turbulence-inertial element 2, a filter baffle 3 made of filter fabrics, a filter baffle 4 made of filter fabrics of different densities and an outlet pipe 5. In the case of spraying the filter baffles, the wetting liquid it is led through the pipeline 6 to the chute 7, from which it flows onto the filtration baffles 3 and 1. The method of gas purification according to the invention is as follows: gas leaving the absorption tower 48 4 is directed to the gas pipeline terminated with a passage 2. After leaving the gas line, 2, the gas changes the flow rate, and the gas stream with aerosol particles falls on the sprayed filtration wall 3, then changes the flow direction and passes through the filtering wall 4, where it is directed to the outlet conduit 5, and any droplets torn from the filtering wall 4, they settle on the impermeable partition 8. Filtration partitions 3 and 4 are sprinkled from the gutters 7 to which the liquid is piped through the pipeline 6. The spraying liquid, including the condensation, flows by gravity and is collected through the nozzles 9. This liquid may be recirculated. PL

Claims (3)

Claims 1. A method of purifying gases from solid contaminants, droplets and mists, in which gas filtration is preceded by initial coagulation of aerosol particles, characterized in that the coagulation is carried out using turbulent pulsations in the gas stream, molecular diffusion and inertial collisions, which are obtained by introducing the gas from the knot into a space with a cross-sectional area of at least ten times the cross-sectional area of the kernel and by directing it to the porous barrier at a distance of not more than three times the diameter of the knot. 2. Device for purifying gases from solid contaminants, drops and mists, characterized by vertically and concentrically mounted baffles in the casing: the outer part is made of porous material, closer to the center made of filter fabrics, and at the same time above The central part of the device is provided with an opening, and between these partitions there are turbulent-inertial elements in the form of conduits terminated with conduits directed towards the external partition. 3. Device according to claim A concentric gas-impermeable baffle is placed in its center, and above it is a gas flow. 5 97 488 6 lAl / \ lAl TLLL PL