SU990922A1 - Method of separating fibrous suspension - Google Patents

Description

() METHOD OF SEPARATION OF FIBER SUSPENSION

The invention relates to the separation of suspensions and can be carried out. For example, it is used in the pulp and paper industry for the separation of a fibrous suspension into fractions. A known method for separating a fibrous suspension includes feeding a suspension stream and washing it with a working fluid, separating the fibrous suspension into a light and heavy fraction in the separation chamber of a hydrocyclone and diverting the upward flow of the light fraction ({J = 1 fraction and downstream) This is because it does not provide sufficiently efficient separation, since the flow of the fiber suspension in the axial part of the separation chamber is of considerable thickness, which makes it difficult The aim of the invention is to increase the separation efficiency. The goal is achieved by the fact that according to the method of separating a fibrous suspension, including feeding the suspension flow and washing it with a working fluid, separating the suspension of the suspension into a light and heavy fraction in the hydrocyclone separation chamber and the withdrawal of the upstream flow of the light fraction and the downward flow of the heavy fraction, the upstream flow of the light fraction is diverted along the axis of the separation chamber, and the flow Liquid suspension is fed between the working fluid and the light fraction. The suspension is fed in the form of a rotating stream. The drawing shows a hydrocyclone for implementing the method, a general view in section. The hydrocyclone includes a separation chamber 1 with a tangential nozzle 2 for the working fluid, a nozzle 3

for fiber suspension, axial nozzle for removal of the light fraction and axial oppositely located nozzle 5 for removal of the heavy fraction

The suspension is separated as follows.

The working fluid with an appropriate speed and pressure is introduced into the separation chamber 1 tangentially through the pipe 2, and the fibrous suspension through the pipe 3 into the part of the separation chamber where the fluid flow has the most intense rotation. Due to the intensive rotation of the fluid, the flow of the initial suspension is diluted and its fibers, as most fractions are washed away by the internal fluid flow into the axial part of chamber 1 and are withdrawn by upward flow through the axial port. The contaminants, as the heaviest fractions, pass into the external descending flow of liquid and are discharged through the nozzle 5 o.

The control of the movement of the heavy fractions is carried out through a transparent chamber 6 °.

In order to intensify the process of separating the suspension, a rotational movement corresponding to the direction of rotation of the liquid can be communicated to its flow. Rotation of the flow of the original suspension can be reported, for example, through the chamber 7, covering the nozzle 3 of the input fiber suspension and equipped with a tangential input 8.

The flow of the fibrous suspension between the flows of the working fluid and the light fraction improves the separation efficiency by obtaining a flow of a suspension of a smaller thickness, which improves its distribution in the flow of fluid. Efficiency is also enhanced by the fact that the flow of the fiber suspension is subjected to: the action of two rotating threads surrounding it.

Claims (1)

1. USSR author's certificate No. 735309, cl. D 21 D, 1978.