SU1459702A1 - Method of mixing loose media - Google Patents

Abstract

The invention relates to chemical technology, in particular to methods for mixing sensitive media that are sensitive to mechanical stress. The purpose of the invention is to improve the quality of mixing. The device for carrying out includes a tank and a drive shaft with a chambered, ends 7 are attached to water shafts. When the shafts rotate in opposite directions with equal angles, the element is deformed. In one of his 90– 360 ° Cs, a bending moment occurs, which is better mixed. At the same angle of the other flexible element, the origin of the moment bending Ron is also improved. 5 ill., 1 tab. mixed up. J-CT-Nye. E IL., I Taol. N I C5 The solvency for carrying out the method includes a tank and drive shafts installed therein with a flexible member, ends 7 attached to the drive shafts. When the drive shafts are rotated in opposite directions with equal angular velocities, the flexible member is deformed. When twisting one of its ends at an angle of 90 - 360 C, an asymmetrical bending moment arises, which contributes to better mixing. When twisting the other end of the flexible element to the same angle, the bending moment is shifted to the other side, which also improves the mixing. 5 ill., 1 tab. NIE E IL., I Taol. SS f | O1 qo -I. la g / -1 s 12

Description

The invention relates to chemical technology, in particular, to methods for mixing bulk solids that are sensitive to mechanical stress.

Invention Chain - Improved Mixing Quality

FIG. 1 shows a device for carrying out the method when twisting one of the ends of the flexible element at an angle L. 30, section I in FIG. 2 shows a section in FIG. 15 in FIG. 3 - a device for carrying out the VIE method when twisting one of the ends of the flexible element through an angle of ° C of 360 °; FIG. 4 is a sectional view of FIG. 3; in fig. 5 is a diagram of sampling sites

The method is carried out as follows.

Three components are successively mixed into tank 1, for example, soda, quartz sand, aluminum powder in a ratio of 3: 1: 1 with a total volume of 5–10 m. The average particle diameter is d 100 - Then, drive shafts 2 and 3, mounted in bearing assemblies 4 and 5, are rotated, and drive shafts rotate in opposite directions with the same circumferential speeds of 30 rev / m. As a result, this initial horseshoe the shape of the elastic flexible element 6 is deformed in connection with the non-symmetric bending moment arising on it. Then, using an overrunning clutch, one of the ends 7 of the flexible element 6 is periodically twisted at an angle of up to 360, without stopping the process. le twist new forms and paths of movement of the resilient flexible member 6 due to asymmetric bending moment that promotes better mixing of the material "

After one of the ends of the flexible element 6 has reached the angle of twist 360, it starts to periodically unwind and 5 pass the initial position, continue its twist in the opposite direction to the angle (-360), after which the process

Repeating one of the ends of the flexible element is also possible by stopping this end of the element while continuing to rotate the other end or while maintaining the rotational speed of the swirling end of the element by twisting the other end of the flexible element. In any case, the elastic flexible element changes both the configuration and the trajectory of movement. thereby improving mixing conditions.

The quality assessment of the mixture is given by the coefficient of variation V (and the aluminum powder is taken as the key component), which is calculated by the formula

V - I 2: iCi- Со1.p with - c7 t

where C; - the concentration value of the key component in the samples;

Sd is the concentration of the same component with an ideal distribution;

n is the number of samples with concentration C; ;

n is the total number of samples. The results of experiments with periodic twisting of one of the ends of the flexible element at an angle oi t360 are given in the table

It follows from the table that the quality of the mixture (V 1-2%) increases in approximately 780 s or -270 °, i.e. in almost one full cycle of twisting and spinning a flexible shaft,

The use of the invention improves the quality of mixing.

Claims (1)

Invention Formula The method of mixing fluids by rotating the drive shafts in opposite directions together with the flexible element fixed on them, characterized in that, in order to improve the quality of mixing, one of the ends of the flexible element is periodically twisted relative to the other end through an angle of 90 - 360, and spun on the same angle. .2