RU1970U1 - JET CONDENSER - Google Patents

Abstract

A JET CONDENSER containing a cylindrical body, inside of which there is an irrigation device connected to a fluid supply pipe, characterized in that the irrigation device is a pipe with holes, the pipe being mounted perpendicular to the longitudinal axis of the body along its diameter, and the holes are arranged in two rows in the bottom of the pipe symmetrically to its vertical plane of symmetry.

Description

JET CODENSER

The utility model relates to equipment for wet gas purification, in particular for trapping vapors of acids, alkalis and other chemical compounds, as well as fine dust particles

A known apparatus for wet cleaning of gases, containing a cylindrical housing, inside which there is a dispersant of coolant associated with the supply pipe, and a diffuser in the form of a helical partition (see, a, c, USSR No. IiiI7456 from b., Opuole,, bbg., M.kl V01D 47Uib Apparatus for cleaning and cooling gases).

In this apparatus, cleaning is carried out due to the passage of a foam-liquid layer through a gas stream

With sharp pressure peaks that occur during the passage of many chemical reactions, the use of this device is impractical. This is due to the fact that it has a large gas-dynamic resistance

Calculated by peak loads, it will be uneconomical, and calculated by average loads can lead to a sharp increase in pressure in the reactor, which is unacceptable, and will not ensure effective cleaning of the gas stream.

The closest in technical essence and the achieved result and selected as a prototype is an apparatus for cleaning gases from impurities, containing a cylindrical body in which is located the irrigation device of the dispersing liquid Sem. USSR No. I473tiI4 from, b7, publ. 23.U4.d9, M.kl., VisZD 47ui6 Gas cleaning apparatus). Irrigation device made g / OYr / fЧ / 2 |

-3 M.C. ViZL 47 / ib

..

-V

but in the form of cylindrical nozzles located coaxially towards each other, connected by a holder, equipped with a conical fairing. Irrigating water enters the cylindrical nozzles, in the volume of which an annular jet is formed uniformly at the outlet, the annular jet flows out over the surface of the ventilator and forms a conical radial structure, the opening angle of which is determined by the hydrodynamic parameters of the expiring annular jets

The disadvantage of this device is the lack of cleaning efficiency due to uneven cleaning of the gas stream from the center of the cylindrical body to its walls. This is due to the fact that the speed and temperature of the water jet from the center to the walls decreases. The manifestation of the film effect, which determines the level of gas flow purification, decreases in this direction.

The objective of this utility model is to increase the efficiency of gas flow purification

The technical result of the utility model is to ensure uniform cleaning of the gas stream over the cross section

This problem is solved due to the fact that in the jet condenser containing a cylindrical body, inside which there is an irrigation device connected to a liquid supply patrol, in contrast to the prototype, the irrigation device is a truow with a hole m1 / located perpendicular to the longitudinal axis of the housing along it diameter, and the holes are made in two rows at the bottom of the pipe symmetrically to its vertical axis of symmetry.

Studies conducted on the sources of patent and scientific: technical information showed that the proposed device is unknown and does not follow an obvious ooraz from the studied prior art, that is, meets the criterion of novelty

The proposed device can be widely used for wet cleaning of contaminated gas streams.

The proposed device can be widely used at the enterprises of the chemical, metallurgical, pharmaceutical and energy industries and is easily manufactured on standard equipment widely produced by the domestic industry. Therefore, the proposed utility model meets the criterion of industrial applicability.

The implementation of the dispersing device in the form of a tube perforated by the proposed method, allows to obtain in the cross section of the casing a water curtain of jets having constant dynamic and temperature characteristics.

Due to this, a film effect, which is stable over the cross section of the body, is achieved, that is, uniform dissolution of impurity molecules and dust particles by water jets.

Thus, the task is solved - increasing the efficiency of cleaning the gas stream.

The essence of the claimed utility model is illustrated by the drawing, in which in FIG. I a sectional view of the jet condenser is shown, in FIG. I is a cross section of the pipe.

The capacitor contains a cylindrical housing 1 mounted

in the upper part of the reactor (to hell, not shown), B the lower part of the vessel I is perpendicular to its longitudinal diameter

perforated trudia jd associated with water supply patrol 3

 about s -S

axis

The holes 4 are made in the lower part of the pipe Jd in two rows, symmetrically to the vertical axis of symmetry

The device operates as follows. Through the supply pipe 3, water enters the tube 2 and exits the openings 4 under pressure, while the trickles form an A oodic water curtain that overlaps the cross section of the housing.

Gases containing vapors of chemical compounds and solid inclusions in the form of dust enter the lower part of the housing / and, rising upwards, pass through the water curtain. As a result of the film effect, the absorption of acid, alkali, solid particles, etc. jets of water that flow orally into the reactor along the walls of housing I.

Thus, the inventive inkjet co-condenser in comparison with the prototype allows more efficient cleaning of polluted gases due to the uniform cleaning of the gas stream over its cross section. Applicant-author Mr X Authors:

4 (l. S 2 - / Smirnov f) I.N, Kosyanenko M, P. Chuich

Claims (1)

A JET CONDENSER containing a cylindrical body, inside of which there is an irrigation device connected to a fluid supply pipe, characterized in that the irrigation device is a pipe with holes, the pipe being mounted perpendicular to the longitudinal axis of the body along its diameter, and the holes are arranged in two rows in the bottom of the pipe symmetrically to its vertical plane of symmetry.