DE4214099A1 - Gas distributor esp. for waste water aeration - has porous gas ejector body of specified pore vol. contg. cavern-like pores with reduced cross=sectional area at outer surface of body - Google Patents

Abstract

Appts. for gas distribution into a liq., esp. for waste water aeration in waste water treatment plants, has a porous gas ejector body made of plastics, the body has a pore vol. of 20-40% and that the pores have a cavern-like form with a reduced cross-sectional area at the outer surface of the body. Pref. the body is made of a hardened and/or polymerised plastics, pref. polymethyl methacrylate. ADVANTAGE - The body consists of a one-piece body of any desired size and shape and its pores are not blocked even by fine solids.

Description

The invention relates to a device for distributing gas in a liquid, especially for aerating wastewater in wastewater treatment plants, with a porous gas flow body made of plastic, which is to be distributed on one side with the ling gas is applied.

In technology, there is often the task of putting a gas in to distribute a liquid finely. This task arises for example also in wastewater treatment because wastewater contained in clarifiers in a corresponding manner Extent must be ventilated so that the biodegradation gears can go on. For this purpose there are ventilation devices known that have outflow bodies that are very are sensitive because they are made up of more or less, for example fine sand can be pressed. The known ones also allow Outflow body is not always an even distribution of the Gases in the liquid, in addition to which the pores clog the known outflow body. This is especially true if when the known outflow bodies are not in operation equipped devices on the outflow surfaces of the out flow body settle solids and penetrate into the pores.

Outflow body for the distribution of gases in liquids are known in various embodiments.

DE-OS 37 10 910 describes a fine outflow body slotted plate made of rubber or rubber-like plastics. This outflow body is for devices for venting Water determined. Any references to the training (Shape and size) of the slits and their volume in the Regarding the volume of the outflow body are DE-OS 37 10 910 not known to be known. A disadvantage of this known discharge plate is that the slots in the gum miplate through which the air escapes over time  get undefined bigger and therefore air with undefined too increasing bubble size flows out. Larger bubbles are, however disadvantageous because the efficiency of ventilation is poor becomes. Other disadvantages of slotted membranes are explained in DE-OS 32 27 671 (page 7, from line 18).

DE-OS 32 27 671 describes a ventilation body porous material for the introduction of air or oxygen into Form small bubbles in wastewater in biological purification plants or in natural waters. By building one Ventilation body made of fibers with a felt structure are said to parts of ventilation bodies made of sintered ceramic material (Pore size: 5 µ) can be avoided. In detail, the Ventilation body according to DE-OS 32 27 671 one made of fibers have existing felt structure, the felt structure with is soaked in a plastic that has hardened.

The invention is based on the object of a device the genus mentioned at the beginning, with the gases too can be widely distributed in liquids, and wel che does not have the disadvantages described.

According to the invention this object is achieved with a device in which the volume of the pores in the outflow body is 20 to 40% of the volume of the outflow body and the pores of the outflow body have cavenous pores with a cross-sectional area that is smaller than their cross-sectional area inside the outflow body on the outer surface of the outflow body are.

Advantageous embodiments of the device according to the invention are the subject of the subclaims.

Advantages of the device according to the invention exist u. a. in that the gas discharge body in contrast to pressed Emanating bodies an integral d. H. one-piece body is and that it comes in largely any shape and size can be put. Also a possibly necessary, subsequent processing of the provided according to the invention  Air outlet is easy. The pores are preferred Outflow body according to the invention so small that it through Do not verify solids that sink to the discharge surface can be stuffed. Here it is an advantage if the size the pores on the surfaces of the outflow body through which the Gas escapes between 1 and 50 microns, especially 20 and 30 microns is.

Due to the size and design of the pores according to the invention Outflow body also has the following advantage: aerator are mainly operated intermittently. During the Downtimes decrease in the medium to be aerated Suspended solids and do not just lie on the surface of the outflow body but also penetrate into its pores (This applies particularly to outflow bodies according to DE-OS 32 27 671).

If the ventilation is started again, close next the outflow body is flushed out. This clear-cut len is problematic in the known outflow bodies because the liquid contained in the outflow body is contaminated and suspended particles are contained in the pores. Both hindered or reduces effective flushing.

In the invention, suspended matter can enter the pores of the flow body do not penetrate and that through the outflow body What penetrates into the device during standstill It is filtered, as it were. Therefore stands for flushing out suspended liquid available and just need it suspended matter lying on the surface of the outflow body be washed away. So the pores of the invention remain Outflow body always clean and gas emerges from the outflow body always in the desired, optimal bladder size.

The invention also extends to the fact that the flow body is plate-shaped and a chamber that with the distributing gas is applied, at least on one side limited. In a development of the invention, the device be largely arbitrary and round, polygonal or have elongated outflow surfaces.  

In practice, an embodiment has proven itself in the Zu connection with pressed outflow bodies is known per se and is the subject of claims 6 to 15.

An advantage of this embodiment is that a Ver divider pipe for the gas to be distributed in the liquid Gas (e.g. air in waste water) several at the same time Gas outlet devices can be supplied. So you have it easily in hand, the device according to the invention the size and / or shape of the liquid to be aerated contain container by matching one en provides for the number of gas outlet devices and this on or arranges them accordingly on the distribution pipes.

Further details and features of the invention emerge from the description below of that in the drawings shown embodiment, which apart from the new Execution of the outflow body is known per se. It shows

Fig. 1 in side view of an embodiment of the device according to the Invention and

Fig. 2 on an enlarged scale and in section along the line AA in Fig. 1 shows a detail of the Vorrich device according to the invention.

Although below the device according to the invention Example of a specific ventilation device described is, the device according to the invention with the Invention outflow body in principle always applicable when gas to be distributed in a liquid.

The device according to the invention has a distributor pipe 1 , to which de-aerator plates 2 extend transversely to the longitudinal axis of the distributor pipe 1 .

As shown in the example in FIG. 1, the distributor pipe 1 can be a square pipe with cross sections 80 × 80, 100 × 100 or 120 × 120 mm.

The aerator plates 2 can have a length of 1000 or 1500 mm and a width of approximately 100 mm.

It goes without saying that in the case of larger liquid to be ventilated (waste water) cross-sections (larger clarifiers), several arrangements consisting of distributor pipe 1 and several aerator plates 2 can be provided, the distributor pipes 1 being able to be aligned parallel to one another.

As can be seen in particular from Fig. 2, each Belüf terplatte 2 consists of an aerator 3 , in the bottom 3 'depending Weil an opening 4 is provided in the middle, which is limited by bent down edges 5 . The edges 5 engage in an opening 8 provided in the upper wall 9 of the distributor pipe 1 . It is understood that 2 openings 8 are provided in the distribution pipe 1 in its upper wall corresponding to the number of aerator plates to be brought (openings 8 not required are simply closed gas-tight ver).

From the side edges of the bottom 3 'of the aerator 3 project side walls 6 upwards, the upper edges 7 are bent outwards.

In the aerator trough 3 , two profile seals 10 are inserted against the side walls 6 and are supported inwards by angle profiles 13 . The profile seals 10 have 3 'inclined tops 11 and thus form a channel for receiving an outflow body 12 , which consists for example of porous plastic. As shown in Fig. 2, the outflow body 12 has a substantially trapezoidal cross-section, so that it lies tightly against the surfaces 11 of the profile seals 10 .

In order to hold the outflow body 12 in the aerator trough 3 and press it against the profile seals 10 , a plurality of springs of the material, e.g. B. spring steel, manufactured brackets 14 seen before, which are hooked with their ends 15 and 16 under the outwardly curved edges 7 and hold the outflow body 12 with its central part 18 . In order to simplify the attachment of the clamps 14 , an extension 17 is provided as a handle at one end 16 .

In order to fix the aerator plates 2 on the distributor pipe 1 , a hold-down device 20 is provided, which has two side parts 21 which lie on the inside at the bottom 3 'of the aerator trough 3 and whose middle part 22 is connected to the wall 24 of the distributor pipe 1 via a threaded bolt 23 by tightening one Mother 25 is tense.

To ensure the tightness between the manifold 1 and the Belüf terplatte 2 , between the bottom 3 'and the wall 9 in the region of the openings 4 and 8 , namely surrounding, a seal 30 , which may be formed as a ring, is provided .

By acting on the manifold 1 of one, or, especially with longer manifolds 1 from both ends with gas (compressed air), this is pressed and flows through the openings 8 and 4 in the space between the outflow body 12 and the bottom 3 'of the aerator plate 3 finally finely and evenly distributed through the porous outflow body 12 .

Since the number of aerator plates 2 , which can be attached to a distributor pipe 1 , can be largely changed to whoever - it is sufficient to provide the corresponding number of openings 8 in the wall 9 of the distributor pipe 1 and to close the openings 8 that are not required - that is Fiction, contemporary device without effort to any shape of containers and sizes of containers in which a liquid is held ent, through which gas is to be passed, adaptable.

The proposed execution of the off flow body can also be advantageous with other aerators or Gas distribution devices are used.

In a preferred embodiment there is the invention Outflow body made of polymethyl methacrylate (other curable  and / or polymerizable plastic systems such as epoxy resins are also possible) and has an average pore volume of 30% (20 to 40% are possible). The pores are cavenous, i.e. H. their inlet or outlet opening is smaller (dimension in Means z. B. 20 to 30 microns) than the clear cross section of the pores inside the outflow body. The dimensions of the pores the inlet and outlet openings can be between 1 and 50 µm be.

Claims (14)

1. Device for distributing gas in a liquid, in particular for aerating wastewater in Abwasseraufbe treatment plants, with a porous gas outflow body made of plastic, which is acted upon on one side with the gas to be distributed, characterized in that the volume of the pores in the outflow body ( 12 ) is 20 to 40% of the volume of the exducer (12) and that the pores of the exducer (12) kavenöse pores are of reduced cross-sectional area on the outer surface of the exducer (12) with respect to its cross-sectional area in the interior of the exducer (12). 2. Device according to claim 1, characterized in that the size of the pores on the surfaces of the outflow body ( 12 ) through which the gas exits is between 1 and 50 µm, in particular 20 and 30 µm. 3. Apparatus according to claim 1 or 2, characterized in that the outflow body ( 12 ), as known per se, is plate-shaped and a chamber which is acted upon by the gas to be distributed, bounded at least on one side. 4. Device according to one of claims 1 to 3, characterized in that the outflow body ( 12 ) consists of a hardened and / or polymerized plastic, preferably polymethyl methacrylate. 5. Device according to one of claims 1 to 4, characterized in that on a distributor pipe ( 1 ) at least two aerator plates ( 2 ) are provided which have the porous outflow body ( 12 ) on their upper side and the interior thereof via an opening ( 4th ) and an aligned with this opening ( 8 ) in the manifold ( 1 ) with the interior of the manifold ( 1 ) in connection. 6. The device according to claim 5, characterized in that the aerator plate ( 2 ) consists of an aerator trough ( 3 ) in which two longitudinal profile seals ( 10 ) are provided, and that the porous discharge plate ( 12 ) of several, in particular resilient, clamps ( 14 ), which are locked on the aerator trough ( 3 ), is held in contact with the profile seals ( 10 ). 7. The device according to claim 5 or 6, characterized in that the side walls ( 6 ) of the aerator ( 3 ) have outwardly angled longitudinal edges ( 17 ) on which the ends ( 15 , 16 ) of the brackets ( 14 ) are locked . 8. The device according to claim 7, characterized in that at least one end ( 16 ) of the brackets ( 14 ) have a hand ( 17 ) is provided. 9. Device according to one of claims 5 to 8, characterized in that the profile seals ( 10 ) to the bottom ( 3 ') of the aerator trough ( 3 ) have inclined, upward white-transmitting surfaces ( 11 ), on which corresponding surfaces Place the outlet plate ( 12 ). 10. Device according to one of claims 5 to 9, characterized in that the outflow plate ( 12 ) has a trapezoidal cross-sectional shape in wesent union. 11. Device according to one of claims 5 to 10, characterized in that the opening ( 4 ) in the bottom ( 3 ') of the aerator trough ( 3 ) has an outwardly pointing nozzle ( 6 ) which in an opening ( 8 ) in the engages upper wall ( 9 ) of the distributor pipe ( 1 ). 12. Device according to one of claims 6 to 11, characterized in that for the fastening of the Belüfterplat ten ( 2 ) on the distributor pipe ( 1 ) hold-down ( 20 ) are provided, which have claws ( 21 ), which from the inside against the floor ( 3 ') of the aerator trough ( 3 ) and which are clamped with the aid of clamping devices, in particular threaded bolts ( 23 , 26 ), to the wall ( 9 ) opposite wall ( 24 ) of the distributor pipe ( 1 ). 13. The apparatus according to claim 12, characterized in that an annular seal ( 30 ) is arranged between the bottom ( 3 ') and the wall ( 9 ) of the distributor tube res ( 1 ). 14. Device according to one of claims 6 to 13, characterized in that the profile seals ( 10 ) between the walls ( 6 ) of the aerator trough ( 3 ) and on the bottom ( 3 ') attached angle profiles ( 13 ) are received.