RU1801542C - Contact-separation device - Google Patents

Abstract

Use: for carrying out heat and mass transfer processes in the chemical, food and other industries, in particular for carrying out processes of absorption, desorption and gas purification. SUMMARY OF THE INVENTION: the housing is made in the form of a truncated cone, the pipe is mounted with an offset relative to the longitudinal axis, and the screw nozzle is made perforated in the lower part. 2 ill.

Description

The invention is intended for carrying out heat and mass transfer processes and can be used in chemical, food and other industries, in particular for carrying out absorption, desorption and gas purification processes.

The purpose of the invention is the intensification of the mass transfer process due to multistage gas-liquid contact and an increase in the average gas velocity in subsequent stages.

In FIG. 1 shows a device, a General view; in FIG. 2 - also, side view.

The device consists of a case in the form of a truncated cone located horizontally 1, inside of which there is a screw nozzle 2. The nozzle in the lower parts has a perforation 3. A cylindrical pipe is located which is not aligned with the case, which is a gas flow restrictor 4. The gas is introduced tangentially through nozzle 5. The outlet nozzle is a droplet dilator 6. The liquid is introduced through the sprinkler 7. The sludge is discharged through the nozzle 8, of a light fraction through the nozzle 9, which is a limiter in fluid.

The device operates as follows.

. The gas entering the purification is introduced tangentially and is irrigated by a liquid. Moving along a swirling trajectory, fluid carries with it. Due to the misalignment of the pipe to the apparatus body, a reduction in the cross-sectional area of the gas passage is achieved and, as a result, an increase in its velocity, which contributes to the ejection of the gas liquid. The two-phase flow interacts with a liquid film formed on the inner surface of the housing and then hits the liquid mirror, again ejecting the absorbent. Such interaction of a gas with a liquid promotes the creation of artificial waves, the formation of separated flows, and leads to the constant renewal and mixing of the liquid film. The step-by-step cleaning of the gas facilitates the multiple collection and atomization of the absorbent. The taper of the apparatus contributes to

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increasing the average gas velocity to the last stage, which allows the capture of particles depending on their dispersion. The contacted liquid with solid particles flows through the perforation to the lower stage and is discharged through the outlet fitting.

Thus, the device provides a developed gas-liquid contact due to ejection, phase interaction in a swirling flow, collision of a two-phase system with a film and a liquid mirror. The dispersed composition of the droplets and, consequently, the size of the trapped particles depends on the gas velocity and the degree of swirling of the flow, which is determined by the taper of the apparatus, which, in turn, depends on the purpose of each particular apparatus. Pipe with passage restrictor

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gas and located not aligned with the casing, can be used to supply or remove heat from the contact zone: Formula for finding A contact separation device comprising a casing located horizontally, inside which there is a screw nozzle forming a spiral-shaped channel, a pipe with a restrictor gas passage, characterized in that, in order to intensify the process of mass transfer due to multistage gas-liquid contact and increase the average gas velocity in subsequent steps, the housing is made frustoconical pipe is installed with an offset relative to the longitudinal axis of the housing, and the screw cap is perforated at the bottom.

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Figure 2,