SU131355A1 - Horizontal multistage countercurrent extractor type mixer-settler - Google Patents

Description

HORIZONTAL MULTI-STAGED COUNTER-FLOW EXTRACTOR TYPE MIXER-DRAWER TYPE

It was filed on May 11, 1959, No. 627740/23 to the Committee on Inventions

and discoveries at the Council of Ministers of the USSR Published in «Bulletin of inventions number 17 for 1960

Used in chemical technology, extraction multistage countercurrent devices of the type of mixer-settler often do not satisfy their requirements due to their low efficiency. In this connection, the devices in which high productivity is achieved, a large number of separation steps and compactness of the apparatus become important.

The proposed horizontal multistage countercurrent extractor, being an mixer-settler type extractor, besides the compact concentration of a significant number of stages, is convenient in operation, since it has no rotating parts, which can be especially useful in cases when repair and inspection of the apparatus is undesirable, for example, when extracting radioactive substances. Each mixer apparatus is divided by a partition with openings into upstream and downstream compartments and is connected to two septic tanks.

The drawing depicts the described extractor, which consists of mixing chambers B, D ..... V, Y от settling tanks A, C, ... X, 2 The number of chambers and settling tanks is determined by the required number of separation stages. Each mixing chamber is divided by a circulation partition / into two compartments: the separation of the upstream 2 and the separation of the downstream 3.

In the mixing chambers, there is an intensive mass exchange between the light and heavy liquid phases, one of which is a solution containing the extractable substance, and the other is extragate. At each stage of the extractor, settling of the phases mixed in the mixing chambers is carried out in the settling basins 4, after which the contacting of the next stage follows again.

Phase movement is carried out in the following way. The light phase is fed through nozzle 5 into the sump Z and discharged through nozzle 6 of item 131355.

A. The level of the liquid in the sump Z provides for the passage of the light phase along the way: sump Z - upper window 7 of the mixing chamber Y - separation of the downstream 3 mixing chamber - lower window 8 of the mixing chamber - sump X - upper window 7 of the mixing chamber V and etc. The ascending stream is created by bubbling air or inert gas through the pipeline and the bubbler 9. At E10M, the light phase enters the stream circulating around the circulating partition, the transition from the downstream compartment through the opening 10 in the circulation wall, as well as under the circulation wall, together with the flow of the heavy phase.

The thermal phase is fed through a spigot into the sump A and out of the sump - Z through Shthuser 12. Through the bottom of the sump A, the thickest phase enters the mixing chamber B. The ascending flow carries the heavy phase upwards. At the top, the heavy phase stream splits, a part of the stream enters the downstream compartment of the same chamber, and a part through the upper window is carried to the sump. In order to increase the amount of the sting phase introduced into the settling tank, guide surfaces J3, which are inclined planes located one above the other, bounded on one side by the chamber wall and on the other side a strip 14, are used. the window enters the mixing chamber D moving, thus countercurrent with respect to the movement of the light phase.

In order to avoid a heavy phase returning from the settling tank to the mixing chamber, with a heavy phase circulating in the adjacent chamber, the settling tank is divided by screen 15 into a separation of the light phase and a separation of the heavy phase 4. To create additional resistance leveling concentrations in heavy The liquid phase, which is located in different compartments of the settling tank, in the separation of the heavy liquid phase 4 below the level of the recirculation orifice 16 can be used a nozzle 17, for example, from pieces of glass tubes.

The light phase rises up into the compartment from the light phase, flows through the cutout in screen 18 into the compartment of the heavy phase and from there through the upper window into the next chamber.

The heavy phase descends into the compartment of the heavy phase, flows into the compartment of the light phase through hole 19 and from the separation of the heavy phase through the bottom window enters the next chamber. When the heavy phase moves from the hole 19 to the lower window, additional sludge from the light phase occurs.

In the extractor shown on the laboratory sample, the final sludge of the exiting liquid phases is carried out in separate settling tanks 20 and 21, which are also level indicators.

Subject invention

A horizontal multistage countercurrent extractor of the mixer-settling type, characterized in that, for the purpose of better movement of the two liquid phases, as well as ease of operation, each mixer is divided by a partition with openings into the upstream and downstream flows, and is connected to two settling tanks, one - the upper window, with the other - the lower window.

Gas

-QCr

l / 7 U f