SU535109A1 - Turbo cyclone - Google Patents

Description

(54) TURBO CYCLONE

The invention relates to devices for the continuous separation of suspensions under the action of peptidial forces and can be used in the food, pulp and paper, mining and processing, chemical and other industries.

A turbo-cyclone is known for separating a heavy sediment from suspensions consisting of a cylindrical-conical body, an impeller installed in the cylindrical part of the body equipped with a rotating drive, a nozzle for feeding the initial suspension, a nozzle for draining the clarified liquid and a nozzle for discharging the thickened fraction 1.

Known turbotsiklop has significant drawbacks. Under the action of a large center of escape force arising from a fast-rotating impeller, a fluid consisting of small particles forms in the vicinity of the impeller rotating with balanced radial velocity. This fluid with equal specific weights of small particles, besides with a balanced radial velocity, is not able to leave either the downstream i; py6y with upward flow, or into the sand outlet with downward flow. This causes excessive flow turbulence, which degrades the quality of separation and reduces the productivity of the apparatus. In addition, the fluid coming from the impeller.

has a higher speed than a fluid rotating with near the walls of the turbo-cyclone body. Shifts of rotating fluid layers occur, which entail the formation of turbulent flows. All this changes the relative speeds of the upstream and downstream flows, which causes their excessive turbulence, increased turbidity of the thickened fraction, which, in turn, leads to a decrease in the quality of the separation of the suspension and a decrease in productivity. In order to improve the quality of separation and increase productivity in the proposed turbo cyclone in its cylindrical

the body part has a horizontal partition in which a helical drip is made and which divides the body into the upper pressure chamber and the lower working chamber, and the impeller is located in the pressure chamber of the housing

fell horizontal partition.

FIG. 1 schematically shows a general view of the apparatus in section; in fig. 2 is a section of a turbo cyclone along A-A in FIG. one; pas figs. 3 shows a section of a turbo cyclone according to BB in FIG. one.

The device consists of a tsilipdro-conical body 1, to the lid 2 of which there is an adjacent pressure chamber 3, inside of which a turbine 5 is fixed with a vertical drive 4, equipped with a rotation drive. 6. The pressure chamber 3 is provided with a nozzle 7 for supplying the initial suspension. The pressure chamber 3 communicates with the working area of the turbo cyclone by means of a screw channel 8, made in the partition 9. The partition 9 consists of an upper cover 10 and a lower cover 11, between which is placed an insert 12 forming a screw channel 8.

The top cover 10 has an opening 13. The partition 9 separates the pressure chamber. And the working cavity of the turbo cyclone. In the lower part of the housing there is a drain pipe 14 and a sand outlet 15.

The operation of the cyclone cyclone is carried out as follows.

The initial suspension through the pipe 7 is fed into the pressure chamber 3, on the blades of the impeller 5. The suspension is intensively twisted and through BHHTOBOiMy channel 8 is driven with great speed into the working cavity of the turbo slope. Under the action of centrifugal forces, large solid particles are thrown to the walls of the turbo-cyclone and sent in a downward flow through the nozzle 15 to the discharge. The clarified liquid fraction, forming an upward flow, passes through the discharge pipe 14 and is discharged from the apparatus.

The transfer of the turbine from the working zone of the turbo cyclone to the pressure chamber makes it possible to order the movement of the upward and downward flows and reduce their turbulence. This causes an increase in the quality of the separation of the suspension, an increase in the throughput of the turbo-cyclone, and consequently, the productivity of the apparatus.

Claims (1)

1. Auth. St. No. 367895, M. Kl.2 B 04 C 3/00, 1970. 13 Aj. AT , ld FIG. 2 Bv Fig.z