SE436001B - Process for separating liquid from sludge etc; and apparatus for conducting the process - Google Patents

Abstract

The invention refers to a process in order to achieve liquid separation of sludge (1), etc. by means of a downward pointing narrowing sludge dewatering column (6) presenting a liquid separation device (11) in its interior, to separate liquid from liquid mixed with sludge, etc. that is introduced into the column (6). The invention allows the continuously effective liquid separation of varying types of sludge. On a number of levels separated from each other, one leads away water that has been separated from the sludge to a reject liquid chamber at a distance away from the column. This is shaped like an ejector. By adjusting the amount of sludge per unit of time that is introduced into the column, the separated reject liquid flowing away from the sludge and the reject liquid chamber's level relative to the column, one achieves such a pressure and reject liquid chamber relationship that the reject liquid is mainly allowed to continually flow out from the reject liquid chamber while the mainly dewatered sludge is made to collected at the bottom of the column for subsequent feeding out. The invention also refers to a device for carrying out the process.<IMAGE>

Description

68307098-7 to the accompanying drawings, in which Fig. 1 schematically shows a plant for liquid separation of sludge etc. arranged according to the invention, and Fig. 2 shows, partly in section, a portion of a liquid separation column arranged according to the invention.

According to the invention it is intended to provide a process which enables efficient liquid separation of liquid-suspended material, such as for example paper fibers or iron oxide material or sludge etc. of other kinds and in the continuation of the description the term water will be mentioned, although liquids other than water are conceivable to separate from sludge etc.

Sludge 1, which is intended to be dewatered according to a method according to the present invention, is supplied after pressurization by means of a pump device 2 and after preferably addition of flocculants, such as polymer additives, by means of a supply device 3, via a supply line 4 in the direction of arrows 5. the invention arranged as a cyclone designed sludge drainage column 6.

Said sludge dewatering column 6 tapers in a downward direction, preferably conically, and is arranged to extend substantially vertically. The column 6 is divided into a plurality of sections, seen in the vertical direction, and in the embodiment shown, the column 6 is divided into three sections 6A, 6B and 6C, respectively, which can be screwed together in a row shape by means of bolts received by laterally projecting flanges 7. At the downwardly facing, tapered end of the column is connected via, for example, a flange 7 a preferably electrically or pneumatically manoeuvrable, lock-like sludge exhaust valve device 8, which is intended to receive in the column 6 dewatered sludge 9 etc. and a control device 10 is connected to said valve device B in order to make it possible at certain times to open the valve device 8 for discharging of: collected sludge 9.

The various column sections 6A-6C located in a row comprise leaves and a liquid separating means 11, preferably in the form of a separating eleinite insert, which is substantially uniform with the wall 61 and may consist of filter or screen material, which is arior-shaped in the inner sludge receiving space of the column 12. at a certain distance from the inner casing 61A of the column wall guide 61. Preferably, the insert is formed by a membrane of polymeric material, which has slits 13, which suitably extend in the longitudinal direction of the column through the membrane, as shown in the drawings.

An inlet 14, which leads from the conduit 4, is connected tangentially to the upper end of the column and extends through both column weighing 61 and the liquid separation guru 11, as clearly shown in Fig. 2. 8307098-7 ... is From the respective column section 6A-6C a number of liquid discharge outlets 15, 16 and 17, respectively, which are connected via, for example, magnetically actuable valves 18 to flexible conduits 19, 2D and 21 intended for rejection liquid, which in the example shown lead in pairs of different levels at column 6 to a common on spaced from the column 6 located similar to an ejector designed reject liquid chamber 22. This chamber 22 is preferably connected to a hoisting device not shown in the drawings, to enable adjustment of the chamber 22 to the desired level relative to the column 6 and is arranged to substantially stretch itself vertically. Means for preferably automatically adjusting the level of the chamber may suitably also be provided.

Pipes 19-21 are preferably connected to the chamber 22 at a substantially equal level, in particular to wine nozzles 23, which are directed southwards. uvanifråri in the direction riedåt to kaminareiis inner space.

The valves 18 of the respective line 19-21 are suitably connected to the previously mentioned control device 10 in order to be able to automatically adjust and control the flow in the respective line 19-21.

An air duct 24 extends between the inner space 12 of the column and the inner space of the chamber 22. An inlet 25 intended for supplying secondary air, which can also be controlled by means of a valve 26, is connected to the air duct 24.

At the bottom, the chamber 22 has a drain line 27 intended for diverting liquid from the inner space of the chamber, preferably the chamber at the bottom also has a venting. device for venting the interior of the chamber.

Liquid-laden flocculated sludge 1, which is supplied to the inner space 12 of the column substantially in the tangential direction under relatively low pressure at the upper section 6A of the column in the direction of the arrow 28, preferably by automatically adjusting the sludge supply by means of, for example, sludge pump ZA, dewatered in a first step by contact with the inner shell surface 11A of the separating element. Separated water accumulates in a similar tubular liquid receiving space 29 between the separating element 11 and the column jacket wall 61, and the water, which maintains a certain pressure, is passed in the direction of the arrows 30 out through the outlets 15 to the chamber 22 via pipes 19 and nozzles 23 with a certain determined flow. which is adjusted by means of the valves 18 etc from, for example, the control device 10.

Air entering the column 6 is taken out via the duct 24 and optionally fresh air is supplied via the connection 25 to facilitate the air withdrawal to the ejector chamber 22 for exhaust via said deaeration device. The partially dewatered sludge then continues its circular downward movement in the wind column 6 through the sections 6B and GC, respectively, and is further dewatered in the manner indicated above. Due to, among other things, the downward dimension of the column, the pressure in the parts of the column increases, ivsinaliiuiiclc. This pressure cooker helps to achieve efficient drainage of the sludge.

The mass of water received in the space 29 between the separating element 11 and the column jacket wall 6 pours a certain pressure. This pressure prevents sludge from passing through the separating element 11 to the space 29. By raising or lowering the core 22 by means of said hoisting device relative to the column 6 it is possible to regulate, by actuation of for instance adjusting means for the hoisting movement, that desired lye in the space 29 is obtained, which is advantageous , because sludge from, for example, paper does not withstand as high a pressure as, for example, sewage sludge or iron oxide sludge, which t !!! liiigrc pressure and requires that the pressure in the space 29 be increased in the manner indicated above.

After passing the section SC, in which the final dewatering takes place, substantially dewatered sludge 9 is lowered to the lower part of the column for subsequent intermittent discharge from the device 8 after control and adjustment via the control device 10.

From said chamber 22, by means of said adjustment of pressure and flow conditions, liquid 31 is allowed to flow out substantially continuously.

The invention is not limited to the exemplary embodiment described above and shown in the drawings, but can be varied within the scope of the following claims.

Claims (1)

1. 8307098-'7 Eatentkrav ll. Method for providing liquid separation of sludge (1), etc., by separating at least one tapered sludge deposition column (6) in the direction, which has a liquid separation means (11) received therein in its interior, liquid from to the column () etc., characterized in that at a plurality of different levels liquid is separated from the sludge and for said liquid to a reject liquid chamber (22) located at a distance from the column (6), which is designed similarly to an ejector, wherein by adjusting the amount of sludge (1) etc. supplied to the column (6) per unit time, the flow of rejector liquid separated from the sludge and the level of the rejector liquid core (22) relative to the column (6). causes such pressure and flow conditions that rvjoklviitsku (31) is obtained in a substantially continuous manner. iitstriiinniza from the reject liquid chamber (22) while mainly dewatered sludge (9) is affected to collect at the bottom of the column for subsequent discharge. Plant for carrying out a method according to claim 1 for effecting liquid separation of sludge (1) etc., by separating liquid from to the column by means of a sludge dewatering column (6) tapering downwards, which has a liquid separation means (11) received therein (6) added liquid-laden sludge, etc., characterized in that a sludge dewatering column (6), which is formed by at least one oyclon, which is substantially vertically arranged and which tapers preferably conically in the downward direction, has a distance from the wall (ol) of the column located along the extending separating element (II), through which liquid is allowed to be separated from the sludge supplied to the interior (12) of the column, etc. communicates via lines (19-21) with a reject liquid chamber (22) located at a distance from the column (6), which is designed similar to an ejector, and that adjusting means (ZA, 18) is available for adjusting the amount of sludge etc. supplied to the column (6), the flow of reject liquid from the column (6) and the level of the reject liquid chamber relative to the column (6). Plant according to claim 2, characterized in that the sludge dewatering column (6) is divided into a plurality of column sections (6A-6C) provided with separating elements (11) and liquid drain outlets (15-17) located at different levels, which are located in row above a liquid sludge discharge lock (8) (9). Plant according to any one of the preceding claims 2-3, characterized by 7.'s. 1D. 8307098-7 in that said separating element (11) comprises an insert of filter and / or screen material, preferably a membrane of polymeric material with slit-shaped liquid discharge openings accommodated in the membrane, which is located at a certain distance from the lwlonnuxis Inantelvâigg. A plant according to claim 1, characterized in that a similar tubular liquid receiving space (29) is formed between said separating element (11) and the column jacket wall (61) and that at least one liquid outlet (15-17) opens from said space (29). Plant according to one of the preceding claims 2-5, characterized in that an air duct (24) extends between the interior and space of the column and the reject liquid canister, and that an inlet (25) intended for supplying secondary air is arranged at said channel (24). Plant according to any one of the preceding claims 2-6, characterized in that reject liquid lines (19-21) leading from column (6) are connected to the preferably substantially vertically extending reject liquid chamber (22) at substantially equal levels via to the chamber interior space opening downwardly directed nozzles (23). Plant according to one of Claims 2 to 7, characterized in that liquid-laden sludge (1) is added to the column (6), which after mixing with, for example, polymer additive, in order to effect flocculation of the sludge, is arranged to be pumped into the column substantially tangential direction, so that the sludge is affected to move circularly along the inner shell surface (11A) of the separating element in the direction of the bottom of the column. Plant according to any one of the preceding claims 2-8, characterized in that said reject liquid chamber (22) is connected to a hoisting device to enable adjustment of the chamber (22) to the desired level. Plant according to any one of the preceding claims 2-9, characterized in that said adjusting means comprise, among other things, valves (18), preferably magnetically actuatable, which are arranged to control the flow of the reject water pipes (19-20) and are actuatable by a control device (10) common for actuating a sludge discharge valve (8). n