SE511304C2 - Inlet device for a flotation tank as well as ways of conveying fluids to a flotation tank - Google Patents

Abstract

The invention relates to an inlet arrangement for a flotation tank (4) comprising a first inflow opening (2) for a first fluid, a second inflow opening (18) for a second fluid and an outflow opening (16) for the first and second fluids. At least one fork (6) downstream of the first inflow opening (2) comprises a first and second branch duct (8, 10).

Description

Another object of the invention is to provide a method of causing one or more of them to flow substantially laminarly into an ttation tank.

This is accomplished by a method according to claim 7.

Such an inlet device for a flotation tank means that a contaminated fluid will be purified efficiently and with very good results, since the bubbles introduced into the flotation tank are allowed to adhere to the particles in the lamination fluid flowing laminarly.

The invention will be described in more detail below with reference to exemplary embodiments growing in the accompanying drawings, in which: fi g. 1 shows an inlet device for an fltation tank according to the present invention, and fig. 2 shows an fltation tank with an inlet device according to the present invention.

I fi g. 1 shows an inlet device 1 according to the present invention, which inlet device 1 comprises a first inlet opening 2 for a first fl uid to be cleaned in an ta otaunon tank 4. Downstream of the first inlet opening 2 there is a branch 6, which divides the first main stream through a first and second branch channel 8, 10. The first and second branch channels 8, 10 are substantially equal in length and extend in substantially the same plane.

The first and second branch channels 8, 10 initially extend from each other in a substantially opposite direction and then merge into a first and second bend 12, 14, 10 b) 511 304 which causes respective branch channel 8, 10 to extend in a direction substantially towards each other. The first and second branch channels 8, 10 thus have a U-shape. It is conceivable that the first and second branch channels 8, 10 may extend into different planes, which intersect each other. According to the embodiment shown in Fig. 1, the branch channels 8, 10 have a substantially circular cross-section, i.e. they are tubular with substantially equal diameter.

The cross-sectional area of the branch channels 8, 10 can be continuously reduced or gradually reduced, as shown in fi g. 1.

The first and second branch channels 8, 10 converge or meet at an outlet opening 16, which is oriented so that the first fluide leaves the outlet opening 16 substantially perpendicular to the distribution direction of the first and second branch channels 8, 10 In other words, a normal to the plane, in which the branch channels 8, 10 extend, parallel to a center axis of the outlet opening 16.

A second inlet opening 18 for a second outlet is arranged substantially concentrically in relation to the outlet opening 16. The second inlet opening 18 is thus located substantially diametrically in relation to the inlet opening 16, in the area where the branch channels 8, 10 meet the shape of the inlet means. the first and second fl uides will flow out substantially laminarly through the n inlet opening 16.

As shown in Fig. 2, an inlet duct 20 in the form of a pipe diverging from the inlet device 1 can be connected to the outlet opening 16 of the inlet device 1. The inlet duct 20 is arranged at the bottom of an fl otation tank 4 and extends upwards in the fl otation sub-tank 4. and 22 uidyta 22 i fl otationstanken 4.

The inför uiden introduced through the first inlet opening 2 may for instance consist of a contaminated liquid to be purified in the ttation tank 4. The fl uiden introduced through the second inlet opening 18 may for example constitute an air-saturated liquid, such as a dispersion liquid, which contains large amount of air bubbles. When the contaminated liquid together with the dispersion liquid flows laminarly in the inlet duct 20 in the ankenotation tank 4, the air bubbles from the dispersion liquid will stick to particles in the contaminated liquid. The air bubbles fl then surface at the top of the surface 22 together with the particles, which stop at the surface 22 and form a mat on the surface 22.

This mat is removed at regular intervals. Fluid purified from particles flows further towards the bottom of the flotation tank 4 where it is drained through a drain opening 24.

According to the embodiment shown in Fig. 2, the inlet anchorage 1 is located below the tank tank 4.

The method of leading the fl uids to the fl otation tank 4 is performed as follows: The first fl uide is caused to flow through the first inlet opening 2 of the inlet device 1. Thereafter, the first fl uide is divided into two main streams downstream of the first inlet opening 2. in substantially opposite direction to each other, after which the two main streams, by means of a bend 12, 14 arranged for each main stream of the inlet device 1, are caused to flow in a direction substantially towards each other. The two main streams then leave the inlet device 1 through a common outlet opening 16. At the same time, a second fl uid causes flow through a second inlet opening 18 of the inlet opening 1, after which the second fl uiden leaves the inlet device 1 through the n inlet opening 16. Finally, the first and second fl uiden are led together into the t tank 4.

Claims (7)

511,304 Claims An inlet device for an fl oation tank (4) comprising a first inlet opening (2) for a first fl uid, a second inlet opening (18) for a second fl uid, an outlet opening (16) for the first and second fl uids and at least one branch ( Downstream The first inlet opening (2) comprises a first and a second branch channel (8, 10), characterized in that the first and second branch channels (8, 10) converge at the outlet opening (16) and that an inlet channel (20) to fl the oatation tank (4) is arranged at the outlet opening (16). Inlet device according to claim 1, characterized in that the first and second branch channels (8, 10) are substantially equal in length. Inlet device according to one of the preceding claims, characterized in that the outlet opening (16) is oriented such that the first and second surfaces leave the outlet opening (16) substantially perpendicular to the first and second branch line (8, 10). ) direction of propagation. Inlet device according to one of the preceding claims, characterized in that the second inlet opening (18) is arranged substantially concentrically with the outlet opening (16). Inlet device according to one of the preceding claims, characterized in that the first and second branch channels (8, 10) branch off so that the first fl uide is divided into two main streams in substantially opposite direction relative to each other, to then pass a bend (12, 14) and resp. branch channel (8, 10), which controls resp. main current in the direction substantially towards each other. 5 1 1 3 Û 4 Inlet device according to one of the preceding claims, characterized in that the inlet duct (20) diverges in the direction from the outlet opening (16). Method for guiding fl uider to an fl oation tank, characterized in that a first fl uid is caused to flow through a first inlet opening (2) of an inlet device (1), that the first fl uide is divided into two main streams downstream of the first inlet opening ( 2), that the two main currents are caused to flow in a substantially opposite direction in relation to each other, that the two main currents are then, by means of a bend (12, 14) arranged for each main current, of the inlet device (1), caused to flow in a direction substantially towards each other, that the two main streams leave the inlet device (1) through a common outlet opening (16), that a second outlet is caused to flow through a second inlet opening (18) of the inlet device (1), that the second outlet leaves the inlet device (1). ) through the outlet opening (16), and that the first and second fl uides are led together into the t otation tank (4).