SU439298A1 - Nozzle for extraction apparatus - Google Patents

Description

one

The invention relates to the construction of nozzles for extra-pion apparatus and can be used, for example, in pulsating extra-pion apparatus.

A nozzle for extraction apparatus is known, containing disks with radial cuts and consisting of individual sectors.

The disadvantages of the known nozzle are relatively low productivity, as well as the fact that the pulsating energy is spent not ONLY on the rotation of the fluid above and below the plates, but is partially spent on the radial movement of the fluid at the moment of pulsation. This leads to an increase in energy costs.

To ensure the intensification of mass transfer, it is proposed to establish sectors under a sharp ANGLE one to the other.

The drawing shows the described nozzle, a longitudinal section.

Inside the pulsation extractor body 1 on the common rod 2 between the spacers 3, the nozzle 4 is fixed, which is made in the form of disks with radial cuts. The resulting sectors 5 are deployed on a sharp ANGLE ().

When the spal and dispersed phases are fed into the column, multidirectional spiral-like flows are formed above and below the plates in the operating mode. Due to the fact that there are two multidirectional flows in the interbag space (one of which is mainly the flow of the RELAXED phase and the other is dispersed),

multiple contact of the phases occurs. Since the width of the gaps between sectors 5 for the passage of phases increases from the center of the apparatus to its periphery, the amount of liquid flowing in the peripheral areas of the column is higher than the amount of liquid flowing through the central part of the column. As a result, as well as as a result of the rotation of the liquid above the nozzle during the dispersion of the heavy phase and, accordingly, under

the plate during the dispersion of the light phase produces rotational phase separation surfaces in the form of a rotational copusoid.

Sploshpa phase due to pulsation receives a larger stock of kinetic energy than

dispersed phase, and therefore, when the pulsator is in operation, the helical motion is constant in direction. The dispersed phase, located above the packing, rotates in conjunction with the FIXED phase. At the moment of pushing the dispersed phase through the slots in the plate, the direction of its movement changes rapidly. Drops or trickles of the dispersed phase, detached from the core, and its masses are transferred to the under-rimmed space, where

flow of the continuous phase. However, they are additionally dispersed, and their size depends mainly on the intensity of the pulsations. The further movement of the droplets occurs under the action of the force of gravity and due to the rotational movement of the continuous phase, and the rotational taper promotes the movement of the dispersed phase from the center to the periphery of the column.

Thus, in the proposed extractor, the pulsation energy is spent mainly on the creation of a spiral movement of the continuous and dispersed phases. Motion

the dispersed phase from the periphery to the center of the colopna and from the center to the periphery is caused by the appearance of a rotational copusoid at the time of the pulsation.

Subject invention

A nozzle for extraction apparatuses made in the form of discs divided into sectors and fixedly mounted on a brush, characterized in that, in order to intensify mass transfer, the sectors are turned at an acute angle to one another.

U.

i a / ilNi