SU1599067A1 - Apparatus for cleaning gases from sulphur oxides - Google Patents

Abstract

The invention relates to devices for the purification of gases from sulfur dioxide, can be used in the chemical industry, ferrous and nonferrous metallurgy, and power engineering and allows an increase in the degree of gas purification by reducing the absorbance of the kleunos. The device includes a housing with nozzles for inlet and outlet of the gas flow and the absorbent, sections filled with a nozzle, and located in sphere-like chambers with a slope along the gas flow at an angle of 15-35 ° to the horizontal. Plates are installed in cylindrical chambers between individual sections, which rotate the gas flow around the axis of motion before each subsequent section. The sections with the nozzle are rotatable around a horizontal axis, perpendicular to the movement of the gas flow. 1 hp ff, 1 ill.

Description

The invention relates to devices for the purification of gases from sulfur dioxide and can be used in chemical industry, ferrous and non-ferrous metallurgy, heat and power engineering.

The purpose of the invention is to increase the degree of gas purification by reducing the kapleunos absorbent

The drawing shows the proposed device, a longitudinal section.

The device comprises a horizontal body 1 with a supply pipe 2 and a gas outlet pipe 3. In the case there is an absorption zone formed by perforated sections 4,

filled with nozzle 5 o. The perforated sections with a nozzle are installed at an angle of 15-35 to the horizontal with an inclination along the gas flow. In the top part of the contact zone there are nozzles 6, and in the lower part - chute 7 for removal fluids through nozzles 8. Before the second and subsequent sections, plates 9 that turn the gas flow are installed,

The device works as follows

The liquid enters through the nozzles 6 and, sprayed on the drops, falls on the upper part of the nozzle 5 о

so se

about

Od

However, due to the inclined arrangement of the sections with the nozzle, the vertically moving liquid reaches the surface of the nozzle, facing the gas flow. As a result of the accumulation of liquid, droplets form on the surface and fall into the gas flow. gas with a liquid. In this case, the droplets in the gas flow continuously change the configuration and volume, thus ensuring intensive mixing in the droplet and, therefore, Full interaction of reagents. On the bench model, it was established that due to the crushing of droplets and the change in gas flow rates over the cross section of the device, the trajectory of droplets stretched along the gas flow. Experimentally selected for specific conditions. Experimentally established boundaries of inclination from 15 to 35 to the horizontal, ensured for various parameters; the termination of the trajectory of drops on the lower Asi, ki. Since the inclination angle of the nozzle coincides with the trajectory of the droplets, no liquid is blown by the gas flow to the opposite side of the nozzle and, therefore, there is no kapleunoso. nozzle layer, in contact with an already saturated reagent and insufficiently cleaned. To eliminate this phenomenon, before the next section there are plates 9 that make the gas flow turn around its axis of movement. that the gases passing through the lower layers of the nozzle are in contact with the upper part of the nozzle of the subsequent section. This rotation of the gas current ensures uniform cleaning of the entire gas volume.

5990674

During the operation of the boiler unit at different loads, the burning conditions change and, consequently, the parameters of the gas flow. The optimum angle of inclination of the sections with a nozzle in this case is set by rotating the sections around the horizontal axis, perpendicular to the movement.

to gas flow This process is easily automated

The proposed device, in contrast to the known, increases the degree of gas purification, since intensification of the gas contact process with the liquid, which is in the drip state in the gas flow and film during flow around the nozzle, is achieved. In addition, an increase in the processed gas flow rate

kapleunos liquid from the nozzle due to its inclined location, which coincides with the trajectory of movement

25 gas volume is achieved by rotating the gas flow around the axis of motion, i.e. before each subsequent nozzle. At the same time, the degree of purification is reached up to 95% and the processing speed

30 gas to 10 m / s. This allows to significantly reduce the metal intensity of the equipment.

Claims (1)

1. A device for purifying gases from sulfur oxides, including a horizontal case with branch pipes for introducing and withdrawing phases, divided into sections filled with a nozzle, between which there are means for distributing gases, which, in order to increase the degree of purification of gases by reducing Kapleunos absorbent, section with nozzle installed at an angle of 15-35 to the horizontal, and means for the distribution of gases made in the form of inclined plates 2 o The device according to claim 1, about tl and - so that the sections with the casing are rotatable around the horizontal axis. S 9