SU1211361A1 - Cavitation reactor - Google Patents

Description

The invention relates to cavitation reactors and is intended for use in the cellulose and paper industry in the treatment of liquid systems (solutions, emulsions, suspensions).

The purpose of the invention is to improve the quality of the processed mixture by increasing the erosion activity of the cavitation floor.

The drawing depicts a hydration reactor.

Cavitation reactor includes a cylindrical chamber 1 with nozzles 2 and 3 for; transfer the processed mixture and. out; after processing, respectively, a cavitator 4 installed in the chamber, having a working surface 5 for forming a boundary layer of the mixture on it and embedded as a truncated cone turned by a large base 6 towards the branch pipe to discharge the mixture, the cavitator is hollow and has the base is provided with a regulator 7, a nozzle 8 for filling the cavity with liquid, and on the working surface of the opening 9 for supplying liquid from the cavity to the boundary layer.

The reactor operates as follows.

The processed process fluid enters the flow chamber-1 at a speed of 8-12 m / s, flows around the cavitator 4, behind which a cavitation supercover is formed, during the closure of which the cavitation fields of collapsing micro bubbles form. Most of the cavitation bubbles are generated in the boundary layer on the surface 5 of the cavitator 4 and along. the surface of the supercavity is blown into its tail area. A pipeline through the pipe 8 into the boundary layer through the holes 9 on the surface of the cavitator is supplied with an adjustable amount of liquid (adjustment is made, for example.

1211361 .2

regulator 7). As a result of the supply of fluid to the boundary layer, its thickness and turbulence increase, which leads to an increase in the number of bubbles and their sizes in the boundary layer converging from the edge of the cavitator 4.. This process is also facilitated by the ingress into the boundary layer of additional amounts of cavitation introduced by the supplied liquid. A large number of bubbles entering the zone of collapse leads to an increase in the erosion activity of the cavitating 15th floor. At the same time, the extent of the active cavitation field increases by a factor of 2–3, and the intensity increases. erosion activity depends on the amount of liquid supplied to the boundary layer on the surface of the cavitator 4. The amount of liquid supplied to the boundary layer is determined as a percentage of the flow rate of the treated medium, soy. 25 plus 78.9 m / h. The erosion activity of the cavitation field is estimated by the intensity of cavitation noise in the bubble collapse zone. .

30 Test results are as follows: The intensity of cavitation noise in the collapse zone

.J5 bubbles, 7о 100 126 141 167 The amount of fluid supplied to the boundary - 40 layer on the surface of the cavitator,% 0.30 0.39 0.8

As can be seen, the erosion activity of the cavitation field is 25-70%, and by adjusting the amount of liquid supplied to the boundary layer, the erosion activity of the cavitation field can be controlled.

Compiled by M. Ivanov

Edited to Kovtun, subs eS 2.Jti.4.-52EEE I2EJL: iJ JL

Order 616/35 Circulation 355 Subscription

VNIIPI USSR State Committee for Inventions and Discoveries

1 1 3035 Moscow ,,,

Branch ShSh Patent, Uzhgorod, st. Project, 4

Claims (1)

“A CAVITATION REACTOR, comprising a cylindrical chamber with nozzles for supplying the treated mixture and discharging it after processing, and a cavitator installed in the chamber, having a working surface for forming a boundary layer of the mixture on it and made in the form of a truncated cone, facing a large base towards the nozzle for discharging the mixture , characterized in that, in order to improve the quality of the processed mixture by increasing the erosion activity of the cavitation field, the cavitator is hollow and has a larger base Bani provided with a regulator inlet for filling the cavity with liquid, a working surface for - opening a liquid supply from the cavity in pogra-. Nicholas layer. n9.SU „1211361