FI58593C - ADJUSTMENT OF THE PROCESSING OF THE MEASURES AND UPDATE - Google Patents

Description

γβΊ advertisement.su cqc0- »l J utläggn, ngsskmft 5 8593 C Patent filed 30 03 1031 <50 ^ / gatenj laJdelat ^ (51) Kv.ik.7int.c1.B 01 D 33/10, G 02 F 11 / 12 FINLAND - FINLAND (21) PKenttlhtkemu * - Pat «ncan« 6kning 3969/73 (22) Hnknmltpilvi - Amttknlngsdag 21.12.73 ^ ^ ^ (23) Alkupllvl - Glltlghtttdag 21.12.73 (41) Tullut Public - Bllvlt offsll. 06.75

The National Board of Patents and Registration Ntotlvlktlp ^ is j. MONTHLY PUBLICATION date - ftn

Patent- och registerstyrelsen Antökan utlagd och uti.akriftan publiearad d0 · 11 · ou (32) (33) (31) Pyydetty atuolkaua - Begird prlorltet 17 * 12.73

Sweden-Sverige (SE) 7316987-2 (71) Roto-Sieve AB, Hjorthagsgatan 10 D, S-1 + 13 17 Gothenburg, Sweden-Sverige (SE) (72) Ingvar Johansson, Västra Frölunda, Sweden-Sverige (SE) (7 * 0 Leitzinger Oy (5 * 0 Plant for the separation of impurities from sludges in liquids -Anläggning för avskiljande av föroreningar ur en uppslamning i en vätska

The invention relates to a plant for separating solid particles, sludge or impurities in the form of a slurry in a liquid or to a plant comprising a screen device constructed of a rotating, elongate drum, the jacket of which is provided with holes and which has internal members at one end of the drum. a feed member for advancing a laterally guided slurry through the drum and passing through the drum to separate the water-separated slurry or the opposite end of the drum, the plant further comprising a collecting basin below the screen to collect the screened liquid prior to transporting it forward and down to the sludge; separated from the liquid.

2 58593 In the treatment of waste sludge, flotation, in which the impurities in the waste liquid are separated by draining the waste liquid down to the basin and the impurities are led up to the pool liquid surface by means of air bubbles in the waste liquid, is essential. high concentration.

During the time it takes for the waste liquid to reach the pool, the organic matter in the liquid uses some of the acid in the liquid, the so-called biochemical oxygen demand, which is expressed as the so-called BHK value. The load on the treatment plant depends on this value, so it is important to keep this value as low as possible.

For the above purpose, large aeration tanks with expensive blowers or compressors have been previously installed.

The object of the present invention is to provide a simple and efficient cleaning plant at low cost, in which air is added to an impure liquid without prolonging its total treatment time.

To this end, the plant according to the invention is characterized in that the screening device is provided with means for mixing air with the liquid, the devices comprising a laterally tapering inlet opening arranged in the inlet member, the inlet means comprising means for distributing the incoming liquid over the inner surface of the screen drum jacket, in addition, for air mixing 3,55893 said air mixing devices further comprise an ejector-like air intake arranged in connection with the collecting basin, which opens at the outlet end of the collecting basin, the collecting basin being double-jacketed so that the air intake forms a gap around the basin and an annular opening.

The invention is explained in more detail below with reference to the accompanying drawings, in which:

Figure 1 schematically shows the main part of a plant according to the invention with screening devices.

Figures 2 and 3 show two different application examples of a basin connected to a screening device.

The cleaning plant according to the invention comprises a screening device 1, which is mainly constructed of a rotating drum 2, the jacket 3 of which is provided with a large number of holes 4. The drum 2 is provided with a central opening 6 As can be seen from the drawing, the inlet pipe is closed at its end by the end 7a and provided with a wedge-shaped opening 8 tapering towards the end. An outlet opening is provided at one end 9 of the drum for dewatering parts from which water has been removed.

Nk. below the screen drum 1 there is a collecting basin 11 extending along the entire length of the drum through the holes 4 of the drum to collect the sieved liquid 12. The collecting basin 11 is provided from below with an outlet top 13 into which an air intake 14 arranged in the basin opens.

Through the connecting line 16, the screening device 1 communicates with the basin 11, which in the example shown in Fig. 2 is located below a level lower than the screening device 1 so that the screened liquid 12 can flow into the basin under its own pressure. The connecting line 16 opens at its lower end 18 some distance below the liquid surface 19 of the basin, to which a scraper, i.e. a scraper 20, is arranged to collect the sludge or the like accumulating on the surface.

Figure 3 shows an example of a basin 27 located at substantially the same level as the screening device 1 or higher, with a pump 21 connected to a connecting line 16 for conveying the screened liquid 12. In this example, a connecting line is connected to a basin bottom provided with a sludge pocket 23 for bottom sludge . The basin 27 shown in Fig. 3 is provided with a rotating slurry scraper 24 and an outlet 25 slightly below the liquid surface 19 of the basin for the sludge accumulating on the surface, which is swept with a slurry scraper. For example, a conveyor belt 28 or such is provided on the discharge end 25 for conveying the sludge exiting through the opening 25.

Purification of the sewage liquid or other impure liquid according to the invention takes place as follows: The sewage liquid is pumped into the screen drum 1 through the supply pipe 7 and thrown laterally against the inner wall of the drum jacket surface 3 under pressure distributed over its entire length. In this case, part of the liquid passes directly through the holes 4 of the jacket 3, while the rest of the liquid meets the parts of the inner side of the jacket between the holes. Due to the design of the inlet opening 8, the liquid meets over a relatively large surface of the inner surface of the jacket 3 with such a force that the liquid jet disintegrates and air mixes with the liquid. The part of the liquid which passes directly through the screen jacket 3 comes into contact again with the air which mixes with the liquid due to the jet effect which is then formed. In the screening of the liquid, larger particles remain on the screen jacket, which are fed by means of a screw in the drum 2 forward in its longitudinal direction and fed out through the opening 10. The screened liquid 12 is collected in a collecting basin 11, whereby as the liquid passes through the outlet end 13 of the basin, more air from the air intake 14 is mixed into the liquid by suction.

During the transport of the screened liquid 12 in the connecting line 16, a pressure increase takes place - in the example shown in Fig. 2 by its own weight and in the example shown in Fig. 3 by means of a pump 21 - which causes the liquid to take up some oxygen. As the liquid flows into the basin 17, 27, the smaller particles tend towards the liquid surface 19, because the air introduced into the liquid in the form of small bubbles adheres to the particles, which are then raised to the surface. Oxygen introduced into the liquid in the conduit is also released in the form of very small bubbles, which also take in smaller particles in the liquid. These form a slurry layer 22 on the surface, which is scraped by the slurry scraper 20, 24 and removed through the outlet 25 (not shown in Figure 2). At the bottom of the basin, heavier particles are collected in a slurry layer 26, which is removed through an outlet (not shown).

The invention is not limited to the application example described and illustrated above, but can be modified within the scope of the following claims. For example, the inlet pipe 7 can itself be formed conically tapering. In addition, the air intake 14 can be arranged in another way.

Claims (2)

6,58593 An apparatus for separating impurities in the form of solid particles, sludge or the like from a slurry in a liquid or the like, the plant comprising a screening device (1) constructed from a rotating elongate drum (2), the jacket (3) of which is provided with holes (4) ) and internally having means for advancing the slurry laterally conveyed to the drum at its other end by the feed member (7) through the drum and passing through the drum to feed the water-separated sludge or the opposite end of the drum, the plant further comprising a collecting basin below the screen device (1) (11) in a screening device for collecting the screened liquid before transporting it and feeding it down to the basin (17, 27) or for separating such a slurry from the liquid, characterized in that the screening device is provided with means for mixing air with the liquid, the supply means (7) , to the side of the mouth an inlet opening (8) tapering towards its end, the inlet means (7) comprising means for distributing the incoming liquid over the inner surface of the jacket (3) of the screen drum (2), said air mixing devices further comprising an ejek in connection with the collecting basin (11) a market-like air intake (14) which opens at the discharge head (13) of the collecting basin, the collecting basin being double-jacketed so that the air intake (14) forms a gap around the basin and its lower mouth opening is formed by an annular opening. Plant according to Claim 1, characterized in that the inlet opening (8) is wedge-shaped.