DE1067410B - - Google Patents

Description

GERMAN

When separating mixtures of solid particles of different density in a hydrocyclone it is in order to achieve a good separation it is necessary that the mixture together with the separation beet under constant Pressure is introduced into the hydrocyclone. A device for mixing is used for this purpose of solid particles with a circulating turbidity, which from one with the turbidity in free fall fed vessel with an overflow edge and a lower outlet for the mixture.

This device has the disadvantage that particles of the mixture that have a lower specific gravity than the separation ribs, which tend to float on the turbidity present in the vessel, so that they are discharged together with the sludge flowing over the overflow edge, whereupon they are removed from the circulation pump are recirculated; This causes additional wear on the pump. Farther the light particles recirculated with the sludge form gravel, which leads to increased sales The value of this product is reduced and the viscosity of the separating belts is reduced by them light particles increases, the selectivity of the separation achieved in the hydrocyclone is impaired will. Even in the event that the vessel is dimensioned so that the speed of the pulp is greater is than the upward speed of the light particles present in "the pulp", an upward movement takes place of the light particles along the vessel walls, where the velocity of the pulp is slow, which means light particles got into the overflow.

The invention relates to a device which does not have the disadvantages mentioned above. At this According to the invention, the device also has an opening for the vessel part containing the overflow edge introducing the slurry in free fall, and this part of the vessel is with the other part via a gap tied together.

The speed of the pulp in the connecting gap can now be considerably higher than that Upward speed of the light particles without the actual mixing space being restricted needs. By using a gap-shaped opening, a spacious connection between the the overflow edge containing the vessel part and the other part achieved, while the along the At the edge of this gap, in which the slurry has a velocity which is lower than that medium speed within the gap, is very narrow.

If an adjustable valve body is arranged in the gap to regulate the valve width, the Mixing device easily the circumstances such as grain size and weight of the material to be separated and

Mixing device
of solid particles with a
circulating turbidity

Applicant:
Stamicarbon NV, Heerlen (Netherlands)

Representative:

Dr. F. Zumstein ₁ Dipl.-Chem. Dr. rer. nat. Ε. Assmann and Dipl.-Chem. Dr. R. Koenigsberger ₁ Patentanwälte, Munich 2, Bräuhausstr. 4th

Claimed priority: Netherlands 20 December 1957

Jan NicoIaas Jacob Leeman ₁ Brunssum (Netherlands), has been named as the inventor

The weight of the pulp and the capacity and load "der7'AnIage" can be adapted. The gap is preferably designed ^{as a} circular opening into which a cone valve that is adjustable in the axial direction can engage.

The invention is to be explained in more detail using an exemplary embodiment shown in the drawing will.

Fig. 1 shows a scheme of a hydrocyclone wash and

Fig. 2 is a vertical section of the mixing device.

The raw material to be separated is introduced together with a quantity of separation beet from the distribution container 1 via a line 2 into a spacious compartment 3 of a mixing vessel 4 . Another part of the separation beet conveyed away from the distribution container is introduced via a line 5 into a narrow compartment 6 of the mixing vessel. The latter sludge flows into the mixing vessel via a circular opening 7 in the bottom of the compartment 6.

A conical valve body 8 is introduced into the opening 7 and can be adjusted in the vertical direction by means of a rod 9 and clamped in place by means of fastening means 10. The mixture flows to a hydrocyclone 12 via an outlet 11 at the top of the mixing vessel. The narrow division 6 has an overflow edge

909 639/208

Claims (2)

which the separating foot 'into' an overflow channel 13 enters. The pressure with which the mixture enters the hydrocyclone is determined by the height of the overflow edge of the compartment 6 and is now constant. '; ν ^ · | Ι | · f' | · -§ f | · | * ί 4; ΐ> | . ^ _ f5 "The particles separated in the hydrocyclone are" 'passed over old drip sieves 14 and 15 and then over brewing sieves 16 and 17, whereupon they are discharged as ranked fractions Bi and C. The undiluted separating beet that has passed through the draining sieves collects in a container 18. 16. And. 17 collecting diluted (. Turbidity -: is fed to a cleaning device 19. In this, the turbidity is regenerated, ^ whereby a cleaned, thickened separating beet is obtained, which is fed to the container and 21 and fine impurities which are drained off at D .. The separating turbidity flowing over the overflow edge 13 is returned to the container 18 via a line 22. At points E and F, “water and fresh pulp can be introduced into the container to compensate for losses. The separation pulp collected in this container is fed back to the distribution container 1 by means of a pump 23. 50 t / h of raw coal from 0.5 to 10 mm are fed into the mixing device; from here it passes into a hydrocyclone 12 with a capacity of 125 ms / h. In, .. division 3, 83.5 ms / h of pulp is fed and into the other division 41.5 m8 / h. The cross-section of the mixing vessel is 0.416 ·. 0.416 m. Division 3 has a width of 0.278 m and the. Division 6 has a width of 0.138 m and the opening 7 has a diameter of 0.1 m. : <··. · _ "The ratio of the two partial flows 2 and 5 is preferably the same as the ratio of the cross-sections of the compartments 3 and 6. Furthermore, the speed in the mixing device must be 0.2 m / h and the speed ir 7 at least 0.4 m / h so that no coal overflow is discharged. 50 t / h raw coal and about 33.5 mVh, so that 33.5 m3 / h pulp "overflow 13 flows. Through the opening 7 str <41.5-33.5 = 8m »/ h. The speed in the mixer now carries. 125 0.426-0.416.3600 = 0.2 m / h The valve body 8 is set in such a way. free cross-section of the opening 7 carries approximately 5C. The speed in this opening is then .. · -..- '· • = 0.445 m / h, 0.005-3600 which is sufficient to prevent small bodies from floating up. Patent claims: 1. A device for mixing solid matter with circulating sludge, where the mixture is introduced under constant pressure into a cyclone, consisting of an overflow edge and a lower edge of the mixture, characterized in that, de . the G containing the overflow edge (13) has an opening (5) for the introduction of the Ti has free fall and is connected to the other via a gap (7). 2. Apparatus according to claim 1, dadu: indicates that the gap as a circular C is designed, in which a cone valve adjustable in the axial direction can engage. ■, 1 sheet of drawings