SU1562001A1 - Apparatus for separating fatty suspensions - Google Patents

Abstract

The invention relates to devices for the separation of fat suspensions, can be used in the petrochemical, chemical and other industries and improves the efficiency of the separation of suspensions by organizing zones of aggregation of fat particles and providing an opportunity to increase their concentration in jet stream along one streamline in the tank. for separation. A device for separating fatty suspensions contains a container, output devices for separated products, an input device in the form of a vertical supply pipe with a set of guides below in the form of uneven truncated cones or pyramids, the angle at the base of the guides is smaller than the angle of repose of the light phase. The length of the guides is determined from the ratio TGΑ [(R + L COSΑ) ² - R ² ] = S, where α is the angle at the base of the guides

R is the radius of the smaller section of the guides, m

L - length of guides, m

S = V / ϕH, m ²

V is the volume of the gap between two successively arranged guides, m ³

H is the size of the gap between the guides, m. The device allows to increase the volume of fat production by aggregating particles and creating optimal conditions for lifting and draining them from the separator. 1 il.

Description

water clarified solution 3 and the fatty part. In the tank 1 below the supply pipe 2 a set of guides 5 is installed in the form of coaxially located truncated cones or pyramids, the angle at the base of the guides being less than the angle of repose, and the length of the guides is chosen from the ratio

tg oi (R + 1 cos oO2 - R2 S,

de bi. R

1 s

angle at the base of the guides; 15 radius of the smaller section of the guides, m; length of guides, m;

V 7rhT

M

20

, V is the volume of the gap between two successively arranged guides, m3; h - the size of the gap between the direction

lchimi, m,

The container 1 also contains a cylindrical cup 6, the diameter of which is equal to the diameter of the upper section of the largest of the guides 5.

The guides 5 can be installed at different depths from the outlet of the feed pipe with a non-stationary suspension flow or at the same depth with a stable flow.

The device works as follows.

The fat suspension through the vertical pipe 2 enters the zone formed by the cylindrical cup 6. In this zone, the bulk of the fats having a density less than the density of the liquid phase are separated and decanted. The remaining part of the fats in the form of fine particles is captured by the fluid flow and enters the channels formed by the conical guides 5.

To enable coagulation, the angle of inclination of the guides 5 is chosen to be less than the angle of repose. In this case, a substantial enlargement of the fat particles is provided. With sufficient enlargement of the fat particles, they are detached from the walls of the conical guides 5. This is due to a significant increase in the contact surface of the aggregate.

YU

15

20

25

thirty

35

40 45 50 55

with a liquid compared to the original fine particles. The force of friction of particles with a liquid is proportional to the surface area of the particles and, when the particles reach a certain size, it separates them from the walls. The angle - ;, repose depends on the particle size, and with increasing size -. The particle angle of repose is usually reduced.

When the aggregates are torn away from the wall of the conical guide 5, the largest of them rise up and enter the zone formed by the cylindrical cup 6. Leaving the mass of the aggregates, it moves together with the liquid and enters the separation zone in the vertical tank 1,

In a vertical tank 1, the velocity of the fluid decreases sharply and the units are able to move upwards. At the same time, it is necessary to provide the units with such traffic conditions so that they do not again fall into the channels between the guides 5. In addition, it is necessary to provide the possibility of jet motion of the units, in which their streamlines do not intersect, but merge into one. This leads to an increase in the concentration of particles in the moving stream, resulting in a decrease in the volume of solution captured by the particles, i.e. separation efficiency is enhanced. The envelope drawn through the lower diameters of the guides 5 must have a shape that provides the maximum speed of movement of the aggregates upwards.

The change in the length of the guides 5 allows to keep the volumes of the channels unchanged, which is important for obtaining aggregates that are uniform in size, since the coagulation time of the initial particles is constant.

After the fatty aggregates are separated from the solution, they are concentrated in the upper part of the container 1 and discharged from it through the fat extraction device k. The solution is withdrawn from the apparatus through the device 3 output clarified solution.

Thus, making the angle at the base of the guides smaller than the angle of repose of the fat particles ensures the organization of the aggregation zone of these particles.

The execution of the guides, the length of which is determined from the equation

tg

(R + 1 cos CO2 - R2 S,

approximating the brachistochrone equation provides the possibility of increasing the concentration of dispersed (fatty) particles in the upstream, which reduces the trapping of the liquid phase. In addition, the same volume of channels formed by two successively arranged guides ensures the stability of the coagulation time and, consequently, the uniformity of the aggregates in size. All this leads to an increase in the efficiency of the separation of fat suspensions.

Claims (1)

Invention Formula A device for separating fatty suspensions, including a container, a vertically installed feed pipe, coaxially with which a water distributor is placed as a set of coaxially arranged guides and output devices for separated products. 562001 o ten This is done in order to increase the efficiency of the separation of suspensions, the water distribution guides are made in the form of truncated cones or pyramids with central upper and lower holes and an angle at the base smaller than the angle of repose of the light phase of the suspension being separated, from the ratio tgoi + 1-cosot) 2 - R2 S, R along oL is the angle at the base of the guides; radius of the smaller section of the governing, m; length of guides, m; V 1 s T-h M V h is the volume of the gap between two successively arranged guides, m3; the size of the gap between the guides, m