RU2018124241A - METHOD OF WET DUST AND GAS CLEANING AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. The method of wet dust and gas purification of blast furnace gas, which consists in the fact that first carry out the supply of dusty gas through the inlet pipe, then direct it to the liquid mirror in the hopper, while the largest dust particles are deposited, and then output through the outlet pipe through an irrigation device , the gas is distributed over the entire cross section of the scrubber, while it is directed upward towards the flow of liquid droplets that trap dust particles and coagulate, and the resulting slurry is collected in the lower part of the scrubber, and it is continuously removed by washing water through the drain channel, while in parallel with the cleaning, the gas passing through the scrubber is cooled to 40 ÷ 50 ° C and moistened to saturation, for which the gas velocity in the scrubber is set to 0.7 ÷ 1.5 m / s, while the water supply to the irrigation belts of the irrigation device is carried out through the collectors, which are located outside the scrubber and are made in the form of annular sections of the pipeline connected to the supply pipelines with control valves, opposite which the rinsing is located latch valves, and nozzles with a hole diameter of 12–40 mm are connected to the collectors radially with a certain step through the tubes using damping inserts, the length of the tubes being selected so that the cross section of the scrubber body is completely blocked by the nozzle spray torches and, without shutting off the scrubber, they are cleaned purge and replace each of them, while in each belt set 8 ÷ 16 nozzles, characterized in that each of the nozzles is performed containing a hollow body consisting of a cylindrical part with an external thread d For fluid supply and, fixed in the lower part of the housing, a union nut with a throttle washer and a nozzle that fixes a hollow screw swirl, made in the form of a truncated cone with through screw grooves, in the cylindrical hole of the housing, pressing it to the strainer, while to the end the surface of the union nut is attached to a liquid flow divider, which is made in the form of a truncated tetrahedron, the ribs of which are rods with fixed blades on them with stops so that it is possible their rotation from flows emanating from the throttle washer, in addition, a diffuser with at least three ejection openings is attached to the end surface of the union nut, coaxial to the nozzle nozzle, the outlet cross section of which is blocked by a perforated plate, while the nozzle is axisymmetrically connected in the form cylindrical shell. 2. A device for implementing the wet dust and gas cleaning method, comprising a housing, a confuser, an inlet and outlet nozzles, an irrigation system and a hopper, the housing is cylindrical, in the lower part of which an inlet pipe with a diameter of d1 is located, the axis of which forms an acute angle in the range of the axis of the cylindrical surface of the housing 30 ÷ 60 °, while the end of the inlet pipe is immersed in a liquid located in a conical hopper equipped with a valve with a counterweight and a flush pipe, and to maintain a constant liquid level in the hopper a drain channel and a water trap with an overflow height K are provided, and a hatch is provided for technical inspection of the scrubber, while an irrigation device with a height M consisting of at least four irrigation belts with nozzles creating an even flow of finely dispersed drops of liquid is placed on the top of the scrubber moving under the influence of gravity, and the lower part of the scrubber, ending in a conical hopper of height L, is filled with water, the level of which is kept constant, and the water supply to the The service is carried out through manifolds that are located outside the scrubber and are made in the form of annular sections of the pipeline connected to the supply pipelines with control valves, opposite which are located the washing valves, and the nozzles are connected to the collectors radially with a certain step through the tubes by means of damping inserts, and the length of the tubes is selected so that the cross section of the scrubber body is completely blocked by spray nozzles, the diameter of the holes of which lies in the optimal range of values: 12–40 mm, while in each irrigation belt of the irrigation device the optimal number of nozzles was established: 8–16, and irrigation is carried out in four zones with the following nozzle torch direction: lower belts up, and upper belts down, different the fact that each nozzle contains a hollow body, consisting of a cylindrical part with an external thread for supplying fluid and fixed in the lower part of the body, a union nut with a throttle washer and a nozzle that fixes the hollow screw swirl an object made in the form of a truncated cone with through screw grooves in the cylindrical hole of the housing, pressing it to the strainer, while a fluid flow divider is attached to the end surface of the union nut, which is made in the form of a truncated tetrahedron, the ribs of which are rods attached to them with blades with stops in such a way that they can be rotated from flows emanating from the throttle washer, in addition to the nozzle end face, coaxial to the nozzle nozzle, a fuser with at least three ejection openings, the outlet cross section of which is blocked by a perforated plate, while being axisymmetric to the diffuser, a nozzle in the form of a cylindrical shell is attached.