NO783841L - BIOFILTER. - Google Patents

Abstract

Biological filter

Description

This invention relates to a biological filter for use in biological cleaning processes, comprising a rotatable, spiral-shaped channel element which is at least partially filled with a porous mass and which is suitable as a growth substrate for bacteria and which, by rotation, is aligned with its open the outer end to lift the liquid to be cleaned and feed said liquid through the mass layer and to release the cleaned liquid out at a place connected to the hub of the channel element.

Conventional treatment plants equipped with biological filters usually comprise a vertical, tower-shaped, heat-insulated biological filter that acts as a growth medium for bacteria and microorganisms. The liquid to be cleaned is pumped with a separate pump up to the top of the tower, from where it automatically flows down through the filter and comes into contact with the bacteria. Often the liquid to be cleaned is oxidized, e.g. waste water, at the same time as it flows down through the filter, either by blowing air through the filter or by natural air circulation through the filter in In certain models, the blown air can also be heated.

In tower-shaped biological filters, the liquid must be pumped up to the top of the tower and there distributed evenly over the upper surface of the filter using special spreaders or nozzles. This is difficult in any case when the amount of liquid is very small in relation to the cross section of the filter. Furthermore, the pump construction itself must be planned for very strong loads, as e.g. waste water has a very strong corrosive effect on metals, and on the other hand, the pump must be insensitive to solid particles that occur in the waste water.

In small tower-shaped filters where the amount of wastewater is small, it is difficult to construct a tower with a small diameter,

so that the tower can gain a sufficiently large height in the direction of the water's flow. In such cases, the filter is usually made

shorter, from which it follows that the cleaning result is worse. A good cleaning result is achieved by the fact that the filter can be divided into several sectors varying in the vertical direction, each with its own strain of bacteria living in it.

The purpose of this invention is to eliminate the above-mentioned disadvantages and to provide a biological filter of a completely new type.

The invention is based on, among other things on the following ideas:

The biological filter consists of a rotatable, drum-shaped construction formed by a channel open at both ends being bent into a spiral shape.

This helical channel is completely or partially filled with a porous mass, e.g. crushed plastic material, which is suitable as a growth medium for bacteria.

The inlet and outlet ends of the spiral are provided with a net, grid or similar protection which prevents the mass from exiting the spiral part, but allows the purified liquid to pass.

The inlet end of the spiral is designed so that, by means of its design or with the help of additional parts attached to it, the amount of liquid taken in when the spiral rotates can be easily regulated.

The outlet end of the spiral is designed so that the water, after passing the spiral, is led into a drainage pipe coming from the middle point or hub of the spiral.

The axis of rotation of the drum coincides with or is very close to the center of the spiral. The shaft is stored at its ends in the drum's support means which allow an adjustment of the drum's position in the vertical plane.

The drum is rotated using an electric motor and a

drive exchange.

A separate heater can be connected to the device.

A separate electrical supply of air can be connected

the device.

The biological filter according to the invention excels

essentially in that the channel element consists of at least one spiral tube.

With the help of the invention, i.a. the following advantages: The system works without a separate pump, as the spiral channel lifts up the water during rotation, and the water moistens the porous filter material as it passes through.

A device that corresponds to a tall filter tower can be accommodated in a significantly smaller room, so that savings are made when it comes to the costs of erecting the tower and thermal insulation.

The amount of water that passes the biological filter is easy to regulate by changing the construction of the inlet end of the spiral or the speed of rotation or the installation depth.

The installation, inspection and lifting of the filter

is significantly lighter than in conventional constructions, as the filter with housing forms a separate, easy-to-handle unit.

The invention will be explained in more detail below with help

of an example with reference to the drawing, where:

Fig. 1 shows a plant with a filter in accordance with the invention partly in section, and fig. 2 shows a section along the line A-A in fig. 1.

According to the invention, the biological filter 1 is arranged

in a well so that the lower part of the filter needs something below the liquid surface. The filter comprises a spirally bent plate 1 with disc-shaped end pieces 2 which are attached to the plate 1 and which together form the filter housing. The spiral channel 3 is filled with a porous mass 4 which is well suited as a growth medium for bacteria.

The inlet and outlet ends of the channel 3 are delimited by netting 5 which holds the filling 4 in place in the channel. In the inlet to the channel, a movable threshold 6 is arranged so that the amount of water that rises in the channel can be regulated.

The end part of the channel is constructed so that when the water in the channel rises to the center of the spiral, it ends up in a pipe 7

which forms the central axis of the spiral. The water is led out of the pipe 7 and into a water distribution bowl 8, from where it is either led all the way back to the well along a channel 9, all the way into an adjacent drain pipe 10 or partially along each of the channels 9 and 10.

The drum rotates about a shaft 11 which is supported at the ends by bearings. An electric motor 13 drives the drum using a drive gear 14. The filter is heated using a heater 15. The well is ventilated using a fan 16.

It is clear that the biological filter can be varied within the framework of the invention in different ways. In a preferred embodiment, the spiral channel can be formed by one or more pipes which are adjacent to each other and which are bent in a spiral shape.

Claims (4)

1. Biological filter for use in biological cleaning processes, comprising a rotatable, spiral-shaped channel element (1-3) which is at least partially filled with a porous mass (4) which is suitable as a growth medium for bacteria, and which, when rotated, is arranged with its open outer end to lift the liquid to be cleaned is seen, and to feed said liquid through the mass layer (4) as well as to release the purified liquid at a place (7) in connection with the hub of the channel element (1-3), characterized in that the channel element (1-3) consists of in the at least a spiral tube. 2. Filter according to claim 1, characterized in that the inlet and outlet end of the spiral tube (1-3) is closed with a liquid-permeable protection (5), such as netting or grating, to keep the porous mass layer (4) in place. 3. Filter according to claim 1, characterized in that the outer end of the spiral tube (1-3) is provided with an adjustable threshold element (6) or the like. for regulating the amount of liquid that is lifted each time - the element performs one revolution. 4. Filter according to claim 1, characterized in that the spiral tube (1-3) is arranged rotatably on an at least approximately horizontal shaft (11) running through the center of the spiral tube