SU1590667A1 - Centrifugal pump for pulp emulsifying and cooling - Google Patents

Abstract

The invention makes it possible to increase the efficiency of dispersion and cooling of the pulp. The pump includes a housing 1 with suction 2 and gas 3 nozzles, an annular outlet (O) 4 of a gas-liquid mixture with a dispersant-cooler 5 and an impeller (RK) 6 installed inside O 4 coaxially with the housing 1 and fixed on the shaft 7. RK 6 is equipped a multi-blade auger (Ø) 8 with a bandage 9 mounted coaxially with the housing 1 at the inlet of the PK 6, and made in the form of radial slotted nozzles 10, each of which communicates with one inter-blade channel Ø 8. The outer parallel axes of the housing 1 are formed by the nozzle surfaces 10 interloop channels of centrifugal compress The 8 inlet is provided with slotted tangential intakes 12 communicated with the inter-blade channels of the Sh 8. The disperser-cooler 5 can be made in the form of vertical rods installed in a checkerboard order around PK 6 parallel to the axis of the housing 1 The pulp flow captured by the intakes 12 enters W 8, then at the entrance of the RK 6, and then is ejected at high speed from the nozzles 10. At the same time, the stream is additionally crushed by the dispersant-cooler 5 and gas, which also leaves the cannon at a high speed. fishing centrifugal compressor formed by the surfaces of the nozzles 10. This increases the degree of crushing and cooling of the pulp in D 4 are reduced and the energy consumption for preliminary compression of the gas. The pump can be installed so that the outlet is above the surface of the pulp, and the dispersant-cooler is made in the form of rods, which will further increase the degree of dispersion and cooling of the pulp. 1 hp ff, 5 ill.

Description

This invention relates to chemical engineering.

The purpose of the invention is to increase the efficiency of dispersion and cooling of the pulp by combining the functions of pulp injection and gas compression in the impeller.

FIG. 1 shows the proposed pump, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 view B in FIG. one; FIG. 4 is a section B-B of FIG. 3; in Fig.5 the dispersant is a cooler, made in the form of rods.

The centrifugal pump for emulsifying and cooling the pulp contains a body 1 with suction 2 and gas 3 nozzles, an annular outlet 4 of a gas-liquid mixture with a dispersant cooler 5 and an impeller b installed inside the outlet 4 coaxially to the body 1 and fixed on the shaft 7. Impeller 6 is equipped with a multi-blade auger 8 with a bandage 9 mounted coaxially with the housing 1 at the impeller inlet, and made in the form of radial cleats 10, each of which is connected with one inter-blade auger channel 8. External parallel axes of the housing ost E 11 nozzles 10 are formed mezhlopastnye channels centrifugal compressor last communicated with the gas pipe 3.

 The auger 8 at the inlet is provided with slotted tangential intakes 12 communicated with the augers of the auger 8. The disperser-cooler 5 can be made in the form of vertical rods 13 installed in a checkerboard pattern around the impeller parallel to the axis of the housing.

The pump works as follows.

After promotion of the shaft 7 s. Working wheel 6 and the screw 8 from the intakes 12, exciting the pulp, the latter enters the inter-blade channels of the screw 8 and then to the entrance to the nozzle 10 of the impeller b. In the nozzles

the kinematic energy from the drive is transferred to the pulp by centrifugal forces, and the flow at the exit of the nozzles acquires additional velocity and is further crushed as it flows around the dispersant 5. At the same time, the centrifugal compressor formed by the surfaces 11 of the nozzles 10 allows the gas entering through the nozzle 3 to be dispersed. 4 streams of pulp and gas

are mixed, and the pulp is more intensively crushed, saturated with gas and cooled.

The proposed pump can reduce energy costs by eliminating

the need for precompression of the gas, as well as more efficient dispersion and cooling of the pulp. Installing the pump so that the annular outlet 4 is above the surface

pulp, also allows you to reduce the back pressure of the pulp and reduce energy costs, and the implementation of the dispersant in the form of rods further increases the efficiency of dispersion and cooling

pulp.

Formula of invention

Claims (2)

1. A centrifugal pump for emulsifying and cooling the pulp, containing a body with suction and gas nozzles, an annular gas-liquid mixture outlet with a disperser-cooler and an impeller mounted inside the outlet coaxially with the body and fixed on the shaft, in order to improve the dispersion and cooling of the pulp by combining the wheel for pumping pulp and compressing gas; the impeller is equipped with a multi-blade auger with a band installed coaxially with the body at the impeller inlet, and is made in the form of radial slotted nozzles, each doy of which communicated with one inter-blade channel of the screw, and outer, parallel to the axis of the body, nozzle surfaces formed inter-blade channels of the centrifugal compressor, the latter are connected to the gas pipe, and the screw at the inlet is provided with slotted tanguemics, connected to the inter-blade screw channels. 2. A pump according to claim 1, characterized in that the disperser-cooler is made in the form of rods installed in a checkerboard pattern around the impeller parallel to the axis of the latter. A a Fyg.Z At B Vernagpo fig L 13