RU1768247C - Scrubber chamber - Google Patents

Description

liquid for mixing its peripheral flow with the central one; longitudinal guide plates are installed in pairs on the side walls of the apparatus for draining the liquid into the zone of intense action of the sprayer. Thus, the claimed scrubber chamber meets the criteria of the invention of novelty.

The features that distinguish the claimed technical solution from the prototype are not revealed in other technical solutions when studying this technical field and, therefore, provide the claimed solution that meets the criterion of significant differences.

On Fig, 1 presents a scrubber chamber, a section; figure 2 is a cross section aa in figure 1.

The scrubber chamber is a horizontal cylindrical housing 1 with flat end caps 2, gas inlet and outlet 3, perforated plates A in the form of nets, flat annular partitions 5, longitudinal guide plates 6. In the lower part, the housing 1 is provided with a horizontal shaft 7 with sprinklers 8, nozzles for supplying and exiting fluid 9.

The device operates as follows. Gas through the pipe 3 enters the housing 1, closed by flat end caps 2, and fills the first dispersion zone 10 in the direction, then, overcoming the resistance of the film on the perforated partitions 4, it fills the second and subsequent zones 10 and leaves the apparatus. the pipe 9 flows along the bottom through the slots (holes) 11 in the partitions 5 and exits through the pipe at the other end of the apparatus. Slots 11 in the annular partitions provide a narrowing of the fluid flow and its mixing (averaging) in the entire volume of each zone 10. Sprinklers 8 scoop up the liquid and spray it with a wide torch over the entire cross section of each zone of the apparatus. In this case, mass transfer occurs between the liquid and the gas. Its effectiveness will be determined by the degree of dispersion and the rate of surface renewal. The degree of dispersion depends on the rotation speed of the design of the spray device. With an equal ™ of these factors, the mass transfer efficiency depends on the presence of stagnant zones and flows, namely, on the presence of volumes of liquid and gas with different dispersion ratios.

In the technical solution, stagnant zones and flows are reduced due to

that, firstly, annular solid partitions 5 impede the peripheral flow of liquid, the sprayer has passed the intensive work zone (a), secondly, the plumes of liquid, carried away by the gas flow, are dispersed on perforated plates 4, and thirdly, on the side walls In each zone of the apparatus, longitudinal inclined plates 6 are installed, which do not allow liquids to spread across the shell of the ineffective film, but direct them to the intensive zone of the sprayer (a) for re-dispersion.

15 The table shows comparative

results of studies of the efficiency of desorption of organic impurities from sulfur by steam in a scrubbing chamber with sieve and spiral partitions. 0 Mass fraction of organic impurities

in the initial sulfur it is the same and equal to 0.10-0.12%.

As a result of using the apparatus design, its operating mode is close to the cell model, which increases the mass transfer efficiency by maintaining a high level of concentration gradient along the apparatus length and increasing the overall brevity of dispersing 0 liquid, as well as reducing gas desorbent consumption due to its rational use in connection with the exclusion of stagnant zones and passage through the apparatus of the central gas stream.

5 The use of a scrubber chamber of the proposed design in the process of purifying sulfur from volatile organic impurities makes it possible to increase the degree of desorption by 10-15% and stabilize the process. Using this device under the conditions of the Rozdolsky Sulfur Production Center will allow increasing the amount of sulfur produced by grade 9990 without any additional capital costs by 200 thousand tons per year. 5 Formula of the invention

A scrubber chamber, including a horizontal cylindrical body with end caps and sprinklers mounted on a rotating shaft, 0 internal transverse annular partitions, equipped with slots for emptying the chamber and placed in the housing with the formation of dispersion zones, gas inlet and outlet nozzles, nozzles 5 for liquid inlet and outlet, characterized in that, in order to increase the efficiency of mass transfer and reduce energy consumption, it is equipped with longitudinal guide plates, placed and in pairs with a bias towards the installation site of the sprinklers in the dispersion zones on each side wall of the housing, perforated plates mounted on the transverse annular partitions, while the transverse annular partitions are made flat, and the perforated plates are in the form of grids, and the gas inlet and outlet nozzles are mounted on end caps of the device.

Comparative results of studies of the efficiency of desorption of organic impurities from sulfur by steam in a scrubbing chamber with sieve and spiral partitions

A a