SU1473814A1 - Gas cleaning apparatus - Google Patents

Abstract

The invention relates to devices for wet gas cleaning, in particular for collecting dust from high-temperature gas streams, which are removed from dust generation sites through mines, and improves the operational reliability, improved dust collection efficiency and simplified design of gas cleaning devices for wet gas cleaning by eliminating decentralization nozzles of a dispersing device and a change in the angle of jet opening in the direction of dust and gas flow and an increase in the gradient spine between environments. The apparatus contains cylindrical nozzles 2 of a dispersing device arranged axially and directed towards each other, interconnected by a holder 3 with a rhombic fairing 4 and provided with movable cylindrical sleeves with a conical outlet. The reflector 11 located below the dispersing device is made in the form of a confuser, forms an annular slot 12 with a cylindrical body 1 and with the help of mobile devices 13 moves along the lower pipeline 6. 2 Il.

Description

The invention relates to equipment for the wet cleaning of gases, in particular for collecting dust from high-temperature gas streams, which are removed from the places of dust formation by means of mines with natural exhaust ventilation, and can be used in various industries for heat and mass transfer processes.

The purpose of the invention is to increase the reliability of operation, increase the efficiency of dust and gas trapping and simplify the design of the device.

FIG. 1 shows a diagram of the gas cleaning apparatus; in fig. 2 is a diagram of a dispersing device with cylindrical nozzles, with conical apertures and a holder with a fairing.

The gas cleaning apparatus includes an exhaust shaft 1 with a natural (artificial) movement of the dust-gas medium, in the lower part of which there is a dispersing device made in the form of cylindrical nozzles 2 arranged axially opposite to each other, interconnected by a holder 3 fitted with a rhombic (conical and so on). a.) fairing 4. A holder 3 is connected to the bases 5, which are fastened to the thread with autonomous pipes 6, combined with a collecting manifold 7. Irrigating liquid is supplied to the collector 7 pipe rovodom 8. The bases 5 have holes 9 for entry of fluid into the cylindrical nozzle 2. Autonomous conduits 6 are provided with adjusting rectifiers 10. Below the dispersing device a reflector 11 formed as a converging tube and forming an annular gap

12 with a cylindrical housing 1. Reflector 11 with the help of mobile devices

13 moves along the bottom pipe 6. Under the reflector 11, a sludge collector 14 is installed, the sludge from which is removed by the nozzle 15. The cylindrical nozzle 2 has cylindrical sleeves 16 with a conical outlet 17.

The device works as follows.

Irrigating water through conduit 8 enters the collector 7 and then into stand-alone pipelines 6 and through the opening 9 of the bases 5 into cylindrical nozzles 2, in the volume of which a ring jet is formed uniformly at the outlet, flowing out through the opening 17 around the surface of the holder 4 and the formation of a conical radial jet, the opening angle of which is determined by the hydrodynamic parameters of the flowing annular jets, which are controlled by the movement of the cylindrical sleeves 16 along the autonomous piping 6, valves 10 and the geometry of the angle of taper of the flap 4. The jet thus organized is dispersed

The irrigating liquid overlaps the cross-section of the exhaust shaft 1 and as a result of the inertial capture of solid particles by liquid droplets and mass transfer, it picks up harm from the gas flow. In contact with the inner surface of the exhaust shaft 1 under the action of gravity, the irrigating fluid, together with the collected sludge, flows into the sludge collector 14 and is discharged through the nozzle 15.

The confuser reflector 11 controls the process of distributing the dust-gas flow in the cross section of the apparatus, directing the main part of the gas flow to the central zone of the continuous strip of liquid, which

5 increases the likelihood of dust particles colliding with drops of irrigating fluid, helping to increase the efficiency of the dust collection process. Moving the reflector 11 with the help of mobile devices 13 along the lower autonomous pipe, wire b, simplifies the design of the gas cleaning apparatus.

The presence of a holder 3 with a fairing 4 rigidly connecting cylindrical nozzles 2, eliminates their decentralization,

c- stabilizes the process of dispersion of the irrigating fluid and increases the efficiency of the dust and gas trapping by increasing the velocity gradient between the liquid droplets and the dust and gas flow by changing the opening angle of the plume within the cone of the fairing with conversion of the radial jet to the conical one when regulating the flow rate and outflow speed (amount of motion) from the jets, and these parameters for the upper jet should prevail over the parameters of the lower

5 JETS - Additionally, by changing the angle of taper of the base of the rhombic cone 4, you can adjust the angle of the conical jet.

The proposed apparatus provides increased operational reliability by eliminating the decentralization of axially arranged cylindrical nozzles, regardless of the temperature of the dust-gas medium and the irrigation fluid, as well as improving the efficiency of trapping hazards from the gas flow by increasing the velocity gradient between the gas flow and the irrigating liquid droplets. So, for example, the speed of drops of the irrigating liquid when opening a conical jet with

The angle of tapering of the base of the rhombic spin-on spider 60 ° is increased by half the speed of movement of the drops of the irrigated liquid. The expected increase in dust collection efficiency when the droplet speed is increased by 50%, ceteris paribus, is 10-15%.

In addition, the design of the proposed apparatus has been simplified by eliminating a special suspension for a conical reflector and its use has been extended to clean high-temperature gas streams moving at high speed by creating counter-current movement of the dispersed irrigating fluid and gas flow.

Claims (1)

Invention Formula Gas cleaning apparatus, including a vertical cylindrical body, equipped with a dispersing device for irrigating fluid, made in the form cylindrical nozzles with upper and lower autonomous pipelines, a reflector and a sludge collector installed under it, characterized in that, in order to increase operational reliability, increase the efficiency of dust and gas trapping and simplify the design, the cylindrical nozzles are equipped with movable cylindrical bushings with a conical inlet and are interconnected by a holder with a rhombic fairing, and the reflector is adapted to move along the lower autonomous pipeline.