RU2069080C1 - Centrifugal bubbling apparatus - Google Patents

Abstract

FIELD: wet cleaning of gases; chemical and heat-and-mass exchange processes in gas-liquid systems in chemical, food-stuffing and other branches of industry. SUBSTANCE: device has upper cover 1 inside which inertial drip pan 2 with drain pipes is arranged, vortex chamber 4 with inverted perforated cone 5 and bypass pipes 6 is smoothly arranged over circumference and conical bottom 7 with supply pipe 8. Arranged in lower base of cone is plate 9 for feeding and draining liquid which may be mounted with or without clearance. Upper portion of cone is provided with slots; it projects above end plate of vortex chamber 4. Located above cone is confuser 11 intended for discharge of gas flow to drip pan. Drain pipes are located coaxially inside bypass pipes 6 and are immersed in them forming hydraulic lock. EFFECT: enhanced efficiency. 2 cl, 5 dwg

Description

 The invention relates to apparatus for wet cleaning of gases, conducting chemical and heat and mass transfer processes in a gas-liquid system and can be used in chemical, food and other industries.

A known apparatus for the interaction of gas with a liquid, comprising a cylindrical body with a tangential nozzle for introducing gas, an inner cylinder (shell), an inertial droplet eliminator, a separation chamber, an inlet pipe for liquid, a drain pipe, a gas outlet pipe [1]
The disadvantages of such an apparatus should include a single passage of fluid through the contact zone, as well as the possibility of its slip at high specific loads due to the close location of the input and output points. Removing the liquid entry point leads to a variant of the downward movement of the gas-liquid layer, characterized by a narrower range of gas loads.

 The technical result of the invention is the elimination of these disadvantages.

 The design implements a lower irrigation mode while maintaining the ability to work with upper irrigation. To do this, a plate for supplying and draining liquid is placed in the lower part of the cone, the vortex chamber is equipped with transfer pipes, and an inertial droplet eliminator equipped with drain pipes is installed in the lid.

 To change the operating mode of the apparatus, the lower plate can be mounted in a cone with or without a gap.

 The upper part of the cone has slots and protrudes above the end cover of the vortex chamber.

 In FIG. 1 schematically shows a centrifugal bubbler apparatus; in FIG. 2 sections along aa and bb of FIG. 1; in FIG. 3 node I of FIG. 1; in FIG. 4 node II of FIG. 1; in FIG. 5 knot III of FIG. 2.

 The apparatus consists of a top cover 1, inside which an inertial droplet eliminator 2 is placed with the main and additional drain pipes 3, a vortex chamber 4 with a reverse perforated cone 5, and transfer pipes 6 uniformly spaced around the circumference and with a conical bottom 7 with a supply pipe 8.

 In the lower base of the cone, a plate 9 is placed for supplying and draining liquid, which can be installed with or without a gap, for example, by axial movement along the pipe 8. The upper part of the cone has slots 10 and protrudes above the end cover of the vortex chamber, forming a distribution plate. Above the cone there is a confuser 11 designed to divert the gas stream to the droplet eliminator. Drain pipes 3 are located coaxially inside the transfer pipes 6 and are immersed in the liquid, creating a water seal. The cylindrical body of the vortex chamber has a tangential pipe "D" for gas injection. Perforation of the cone is also made in the form of tangential holes 12.

 The apparatus can operate on the lower (plate 9 installed with a clearance) and upper (plate 9 installed without a gap) cone irrigation. In the first case, the fluid is supplied to the pipe "B". Having passed the pipe 8 and the plate 9, it is twisted by a gas stream and, due to centrifugal forces, is ejected from the cone 5 onto the distribution plate, from where it is lowered through the transfer pipes 6 to the conical bottom 7 and discharged through the pipe “G”. Partially, the liquid located in the bottom is sucked in by the cone through the annular gap and is involved in the circulation movement inside the apparatus, being subjected to repeated contact with the gas.

 With the top irrigation of the cone, the liquid is supplied to the nozzle "G" and, rising through the transfer pipes 6, fills the distribution plate, from where it flows into the cone through the slots 10. After interacting with the gas, the liquid, having passed through the plate 9 and the pipe 8, is discharged from the apparatus through the pipe "B".

 In both cases, the gas stream is supplied to the vortex chamber 4 through the pipe "D". Additionally twisting in the tangential holes of the cone, the gas interacts with the liquid, forming a rotating gas-liquid layer. Using confuser 11, the gas stream is diverted to an inertial droplet eliminator, where liquid droplets are separated by spinning the stream in the opposite direction. The trapped liquid returns to the bottom of the apparatus through the drain pipes 3, which also act as a water seal. The purified gas stream is discharged from the apparatus through the pipe "E".

Claims (2)

 1. A centrifugal bubbler apparatus comprising a lid, a bottom, a vortex chamber with an end lid, an inner shell located in a vortex chamber, a fluid supply pipe oriented inside the shell, a gas inlet tangent, a gas outlet pipe, an inertial droplet separator installed in the lid and equipped with a drain pipe, characterized in that the inner shell is made in the form of a reverse perforated cone, the inlet pipe is equipped with a plate for supplying and draining the liquid located in the lower part of the cone ca with the possibility of a gap with its inner surface, the vortex chamber is equipped with transfer pipes, the inertial droplet eliminator has additional drain pipes, while the drain pipes of the drop eliminator are coaxial with the transfer pipes of the end chamber and immersed in them with the formation of a water seal.  2. The apparatus according to claim 1, characterized in that the upper part of the cone has slots and is made with a protrusion above the end cover of the vortex chamber.

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