SU563999A1 - Packing for heat and mass exchangers - Google Patents

Description

one

The present invention relates to a nozzle for heat and mass transfer apparatus, in particular for contacting and mixing phases in heterogeneous systems. It can be used in chemical

radiochemical and other industries.

The known nozzle, including a horizontal partition with openings, is provided with & inclined vanes, which are located on both sides of the partition and are directed towards each other with constant 4. slope on each side of the partition}.

When using a well-known nozzle in systems with a large difference in the phase densities of the 1-chamber orifice process, separation, etc., the horizontal component of the velocity, which ensures the contacting of the phases, is achieved by reducing the angle of inclination of the blades, however, this leads to the fact that the channel is narrowed to two blades, which begins to impede the movement of one of the reagents, and the resistance

nozzles As a result, the productivity of the apparatus, determined by the smallest flow area of the reaction zone, the flow area (flow area of the nozzle), and the efficiency of mass transfer drop sharply.

The purpose of the invention is to increase the efficiency and productivity of the nozzle.

For this purpose, the shoulder blades of each answer are directed “at an acute angle to each other.

Fig, 1 shows the extension of the nozzle, a longitudinal section; in fig. 2 - the same, in a column.

The nozzle, for the masses of the exchange apparatus, is from the horizontal partition 1 s from (versts 2, equipped with columnar trowels 3 and 4, which are located on both sides of the partition 1 and directed towards each other. Paddles 3. Located on one side The partitions 1 have a constant angle of inclination d-, and the blades 4, located on the other side of crossing 1, are directed to the Eop blades by an acute angle and have a constant angle of inclination j to the partition 1 "

The nozzle works in the following way.

The nozzle is installed in the apparatus in such a way that the adjacent partitions face each other with vanes with the same inclination (in this example, the angle of inclination of the blade 3 to the partition is 45, the angle of j of the blade 4 to the partition is 10 and the acute angle of the inclination of the blade J to paddle 4 is 35). In addition, the direction of the slope is

these blades are the same. As a result, in the reaction zone of the apparatus, cavity 5 formed between the sides of the partition with blades 3 and floors 6 enclosed between the sides of the partition with blades 4 are formed through the sides of the partition. blades 4, intensive mixing and crushing of reagents occur, and in cavity 6, due to their large size and large angle of inclination of the blades 3, coalescence and vertical vortex mixing of enlarged drops occurs. In addition, the movement of fluid in the cavity 5 is close to horizontal, which partitions the apparatus, preventing longitudinal mixing in it. Due to this, the efficiency of the apparatus increases. In connection with a significant cross section & nozzle reaching 30-35% and accelerating the growth of enlarged droplets, the total load on the column also increases.

The plan was tested using an aqueous solution of 35 g / l of uranium in 0.5 normal nitric acid — 20% TBP and kerosene in a column 200, mm and ayy hundredth working area of 1 m. The settling zone had a height of 300 mm and a diameter of 100 mm.

When tested on the proposed attachment with tilt angles, i-if, respectively, 45.35 and 10, the height, equivalent to the theoretical level, decreases by 2O% and the productivity increases 1.5 times compared to the known level. This gives an economic effect only to the manufacture of columns at a capital cost of 6,000 rubles per capita. doi column in the production of 100 m / h.

Claims (1)

1. USSR author's certificate No. 177548, B 01 D 53 / 2O, 1961