DE29816516U1 - Device for aeration of ground water - Google Patents

Description

Mannheim, 14.09.1998 GM 2374.anm Il/bau

Representative: Patent attorney Dipl.-Ing. W.-D. Fischer Sophienstraße

D-68165 Mannheim

Applicant: Mannheimer Versorgungs- und Verkehrsgesellschaft mbH (MW) Luisenring 49

D-68159 Mannheim

Device for aerating groundwater

The invention relates to a device for aerating groundwater with an oxidation tank and an air introduction device connected to the oxidation tank.

When remediating groundwater damage, the groundwater to be cleaned may contain, in addition to the main contaminant, other components that interfere with the process. These may include iron and manganese, for example, which are naturally present in the water. To remove these substances, the water is aerated in order to oxidize the metal ions and thus convert them into a filterable form. In addition to such damage cases, the aeration system can also be used as part of conventional drinking water treatment.

Devices are known in which a nozzle base with filter nozzles is arranged in the oxidation tank. An air cushion is built up below the filter base, whereby the air introduced is entrained with the water flow when it exceeds a level specified by the nozzles and is distributed in the tank. Attempts are made to achieve a homogeneous distribution by means of a correspondingly large number of nozzles. Ventilation lances are also known, whereby a metal lance of this type, in which there are several holes, is introduced into the inlet to the tank. The air is fed through this lance. The mass transfer is to take place through the high flow speed and the entrainment of air bubbles. A filter base with holes can be used to support the distribution. Jet nozzles are also known for ventilation.

in which a water jet entrains air according to the injector principle. The jet is accelerated by using pumps. The installation of several nozzles is intended to achieve homogeneous air distribution in the container.

The known devices have the disadvantage that the atmospheric oxygen cannot be distributed in the raw water in fine bubbles, i.e. with a large surface area and homogeneously, in order to ensure optimal mass transfer. Other disadvantages are the insufficient operational reliability, the complex installation and the inadequate service life.

The invention is based on the object of designing a device of the type mentioned at the outset in such a way that a uniform and fine-bubble distribution is achieved for aerating the groundwater in order to increase the mass transfer.

This object is achieved according to the invention in that the air inlet device has a perforated pipe support composite which is covered by a membrane tube, wherein the membrane tube is provided with slot-shaped pores.

An advantageous embodiment consists in that the pipe support assembly attached to the oxidation tank is composed of individual ventilation pipes connected to one another as supports, which have air outlet holes and are covered by the membrane hose.

Furthermore, it is advantageous that the ventilation pipes are arranged in a ring shape in the cross-sectional plane of the oxidation container.

It is further proposed that the ventilation pipes are arranged parallel to each other in the cross-sectional plane of the oxidation vessel.

It is also advantageous that the pipe support assembly is connected via a T-shaped air connector.

The invention has numerous advantages. The finest bubbles are created for ventilation, which rise as individual bubbles in the container, whereby the length of the ventilation section can be adjusted using different installation variants depending on requirements and application. The device can be installed or retrofitted in all common containers. Easy assembly and disassembly is guaranteed. Another advantage is that any contaminants or water cannot get into the interior of the ventilation system. The device is non-clogging and self-cleaning. In problematic applications, such as the formation of sludge during the oxidation of iron or manganese, the formation of incrustations and deposits is avoided.

The invention is explained in more detail in the following description using embodiments shown in the drawing.

Show it

Fig. 1 is a plan view of the device according to the invention

device within an oxidation container according to a first embodiment,

Fig. 2 the detail "Z" according to Fig. 1,

Fig. 3 the detail "X" according to Fig. 1 and

Fig. 4 shows another embodiment of the device in

the top view inside the oxidation tank.

In the embodiment shown in Fig. 1-3, the device for aerating the groundwater is installed inside an oxidation tank 1 above a perforated bottom 6. The device consists of four aeration pipes 2 and 3 connected to form a square, with an air connection piece 8 located in the aeration pipe 3. The individual pipes 2, 3 are connected to one another using corner connections 7.

The ventilation pipes 2, 3 have a support pipe 13 over which a membrane hose 5 is pulled. The support pipe 13 is perforated so that air can escape from the pipe assembly. The membrane hoses 5 have slot-shaped pores that open under internal pressure and allow air to escape. The air bubbles created in this way have a diameter of about 0.5 - 1 mm. In the relaxed state, all pores are closed so that the membrane hose 5 acts as a backflow preventer. Depending on requirements and application, the length of the ventilation section can be adjusted using different installation variants.

The ventilation pipes 2, 3 as well as the corner connections 7 and the air connection piece 8 are designed on the basis of PE pipes and parts, and the membrane hose 5 can be made, for example, from ethylene-propylene rubber or in another silicone version.

An air supply line 9 is connected to the air connection piece 8, which in turn is led through the perforated base 6 via partial air supply lines 10 into holes 11 in the perforated base 6 and is connected to an air supply line 14.

In the further embodiment according to Fig. 4, the ventilation pipes 4 are arranged parallel to one another in the cross-sectional plane of the container 1 and are each closed with end caps 12. The ventilation pipes 4 are connected to one another by a connecting pipe 15 and connected to the air supply line 9 via the air connector 8.

Claims (5)

Protection claims 1. Device for aerating groundwater with an oxidation tank (1) and an air introduction device connected to the oxidation tank (1), characterized in that the air introduction device has a perforated pipe support assembly (2, 3, 4) which is covered by a membrane hose (5), the membrane hose (5) being provided with slot-shaped pores. 2. Device according to claim 1, characterized in that the pipe support assembly attached to the oxidation container (1) is composed of individual ventilation pipes (2, 3, 4) connected to one another as supports, which are covered by the membrane hose (5). 3. Device according to claim 1 and 2, characterized in that the ventilation pipes (2, 3) are arranged in a ring shape in the cross-sectional plane of the oxidation container (1). 4. Device according to claims 1 to 3, characterized in that the ventilation pipes (4) are arranged parallel to one another in the cross-sectional plane of the oxidation container (1). 5. Device according to claims 1 to 4, characterized in that the pipe support assembly (2, 3, 4) is connected via a T-shaped air connection piece (8).