NL1003759C2 - Apparatus for continuous purification of waste water - Google Patents

Abstract

A waste water purification installation (15) consists of a number of water-filled compartments (30,32,34,36) with filter compartments (31,33,35) between them. The waste water passes successively through the compartments with at least some of the water compartments having a screen of natural material (40-43) with algae on the surface. Sources of light, heat and oxygen are provided.

Description

Title: Wastewater treatment plant.

The invention relates to a waste water purification installation for domestic waste water.

In the context of the present description, domestic waste water is also understood to mean waste water that arises as a result of industrial business activities, such as for instance livestock farming. The invention is also applicable for the purification of waste water generated as a result of industrial activities, insofar as the nature of the waste water concerned or the nature of the pollution of the water does not impede this. Optionally, for a specific type of pollution, a separately adapted pretreatment step can be used, after which the pretreated waste water is fed to an installation according to the invention for further purification.

15 For remote residential houses, farms and the like, which are not connected to the sewage system, there is a need for a reliable and effective working, easy to maintain and install waste water purification installation, which provides purified water such that it is discharged into the surface water without any problem. and / or can be reused as, for example, wash water, rinse water or even drinking water. If desired, such a waste water purification installation can also be used at homes or companies that are connected to the sewer system.

According to the invention, a waste water purification installation of the above-described type is characterized in that at least one purification reservoir, comprising a number of water compartments substantially filled with water and a number of filter compartments each situated between two water compartments, in which it is to be purified in operation. waste water flows successively through the water compartments and the intermediate filter compartments, wherein at least a number of water compartments contain at least one screen of natural material, which serves as an attachment point for 1003759 -2-algae, and wherein means are provided for the supply of light, heat and oxygen .

In the following, the invention will be further described with reference to the accompanying drawing of an exemplary embodiment.

Figure 1 shows a block diagram of an example of an installation according to the invention; Figure 2 schematically shows a cut-away front view of an example of a part of an installation of the type shown in Figure 1; figure 3 schematically shows a perspective view of an inlet filter of an installation according to figures 1 and 2.

Figure 1 shows a block diagram of an example of a waste water purification installation 1 according to the invention. The installation shown comprises a septic tank 2, which may be of any known suitable type and a grease separator 3, which may also be of a known type. A supply line 4 is connected to the septic tank 2, which supplies the water from one or 20 more toilets 5 of one or more buildings to the septic tank. The grease separator has a number of supply lines 6 to 8, which, if desired, can discharge into a single supply line, and which, for example, can supply the waste water from a bathroom 9, a kitchen 10 and a shower 11 to the grease separator.

The septic tank 2 and the grease separator 3 each have a discharge pipe 12 and 13, respectively, through which the waste water already depleted of certain constituents in the septic tank or the grease separator overflows into an overflow reservoir, for example a well 14. The well 14 is provided of a pump and can therefore also be referred to as a pumping station. Alternatively, the drain lines 12 and 13 can be combined at least partly into a single line. Also, the discharge pipe from the septic tank could open into the grease separator, so that the water from the septic tank reaches the pumping station via the grease separator.

1003759 -3-

The pumping station 14 serves as a buffer reservoir, in which mixing occurs and from which the waste water is supplied in a dosed manner to a purification reservoir 15. The water is purified in the purification reservoir in a manner to be described in more detail, and can then, for example, be discharged into the surface water or be reused in some way for commercial or agricultural use (spray water, cleaning water) or for domestic use. This could include use as toilet flushing water, washing water or even drinking water, depending on the quality of the purified water and any subsequent treatments.

If reuse is envisaged, a storage reservoir 16 can be used, from which one or more pipes lead to the various desired draw-off points. In figure 1 two such lines are indicated at 17 and 18. For the water transport through these pipes, one or more pumps (not shown in more detail) can be provided and, if desired, additional buffer reservoirs can be provided for one or more specific applications of the purified water.

Figure 2 schematically shows an example of a purification reservoir 15, which in the example shown comprises a rectangular container 20, which is provided with an at least partly transparent cover 21, which is preferably double-walled 25. The tray can for instance be made of concrete, but other watertight materials, such as for instance plastic, can in principle also be used. When constructed in concrete, the container can be produced as a completely prefabricated container or as a container constructed from prefabricated elements. The cover can be made of a suitable transparent plastic or optionally of glass.

The container 20 has an inlet 23 arranged high in one of the end walls 22 and an outlet 25 likewise positioned high in an end wall 24 opposite the inlet side, which water, however, flows from the bottom via a tube 26 extending in the container to near the bottom. layers in the bin. Between the two end walls is a series of compartments 30 1003759 -4- to 36. The compartments lie one behind the other in the direction of flow of the water to be purified, whereby each time between two mainly water-filled compartments, as in this example. the compartments 30 and 32 and the compartments 32 and 34 and the compartments 34 and 36, respectively, are compartments which are filled with mineral filter material, such as the compartments 31, 33 and 35.

In the first compartment 30, an inlet filter 37 is provided, which comprises a housing 38 provided with passages 47, which contains a suitable filter material 39. The filter material ensures filtering and distribution of the water flowing in the first compartment. The filter material preferably consists of a natural material, such as, for example, straw. The passages 47 in the housing 38 are all arranged at the same height or at least shaped and positioned such that the pre-purified water in the inlet filter 37 flows evenly distributed over the passages 47 from the filter housing 48. Each of the passages 47 is provided with a fine-meshed cover 48 in order to prevent the floating of filter material 39 into a water compartment. The housing 38 is divided into two sections transversely to the flow direction by a dashed line shown in dashed lines. The baffle 49 has a bottom edge spaced from the bottom of the housing 38 so that water can flow below the baffle 49 along (arrows 52) from the upstream portion 50 of the housing 38 to the downstream portion 51 of the housing 38. It is of course also possible, as an alternative or additionally, to provide the partition 49 with passage and, if desired, to let it run to the bottom. The inlet filter 37 is removable to facilitate inspection and replacement of the filter material.

Since the flow-through opening 53 between the upstream portion 50 and the downstream portion 51 of the inlet filter 37 is located near the bottom of the inlet filter 37 and the inlet 22 is located in an upper region of the inlet filter 37, the water to be cleaned is operated - 1003759 -5- forced to travel a longer distance than would be the case if the inlet filter were not equipped with such a partition. The baffle 49 promotes sludge deposition in the inlet filter 37 and damps water movement on the outlet side 5 of the inlet filter 37. It is noted that in principle it is also possible to achieve these advantageous effects if the inlet opens into a lower part of the inlet filter and the passage opening from the upstream portion to the downstream portion of the inlet filter is located in a top portion of the filter.

In each water compartment 30,32,34 and 36 there is at least one substantially vertically positioned screen 40,41,42,43 placed approximately half way, which forms an attachment site for algae which remove phosphates and nitrates from the water. The screens can advantageously be made of vegetable material and can for instance consist of reed mats or rush mats. The screens should be easy to replace. To this end, the cover 21 is first of all detachable, for instance folding. The screens can for instance be slid between profiles arranged vertically on or near the side walls of a compartment and / or can be provided with suspension rods, poles or the like or other suspension members extending along the top edge. Furthermore, sunlight and thus heat is supplied from the top through the transparent cover 21 to the water compartments, as well as to the filter compartments 31,33,35. Furthermore, oxygen is supplied to the water compartments near the bottom, which promotes algae growth and thus the purifying effect. The oxygen supply can advantageously be effected by supplying air, as indicated by an arrow 45, to one or more pipes extending along the bottom of the container 20 at the level of the water compartments with outflow openings. At 46 such a line is indicated by broken lines.

The filter compartments are preferably also filled with natural material, the filter effect increasing in the flow direction from filter compartment to filter compartment in the flow direction. For example, the first filter compartment 31 can be filled with coarse gravel, the second filter compartment 33 with fine gravel and the third filter compartment 35 with coarse sand. Filtering and bacterial purification take place in the filter compartments. Each filter compartment has one or more inlet openings near the bottom of the bin and one or more outlet openings near the top of the bin. Likewise, each water compartment has one or more inlet 10 openings (which are the outlet openings of the previous filter compartment) near the top of the tray and one or more outlet openings (which form the inlet openings of a subsequent filter compartment) near the bottom of the tray.

The dimensions of the purification reservoir depend on the required purification capacity. The required treatment capacity depends again on the number of connected homes and / or companies, the number of people staying there, the business activities and the like. A reservoir of the type described above is preferably buried in the bottom, so that a protection against frost is obtained. The use of a transparent, preferably double-walled hood 21 ensures that heat is retained in the reservoir. If desired, heating means can be supplied in and / or around the tray and the connecting pipes. Heat can also be supplied with the aid of lamps via the transparent cap.

A purification installation according to the present invention can remove lime from the water, so that the purified water can in principle be used as washing water in a washing machine. Such an installation is also suitable for processing very protein-rich water, such as is released during the rinsing of milk tanks.

If the operation of the purification installation decreases, the installation can be regenerated by replacing the mats 41, 42, 43 and replacing or cleaning the filter material. For this purpose, the filter compartments can advantageously consist of separate removable units, which can be placed and removed with, for example, a suitable lifting installation with 1003759 -7-.

It is noted that after the foregoing various modifications of the described device are obvious to the skilled person. For example, more or less water compartments and filter compartments may be desirable for certain applications. Other filter materials can also be used, for example blast furnace slag for coarse filtering and diatomaceous earth or rock wool or the like for fine filtering. Furthermore, insulating material can be arranged around the purification reservoir. These and similar modifications are understood to fall within the scope of the invention.

1003759

Claims (19)

1. Wastewater treatment plant, characterized by at least one purification reservoir, comprising a number of water compartments mainly filled with water and a number of filter compartments, each located between two water compartments, in which the waste water to be purified successively flows through the water compartments and the intermediate filter compartments in operation, at least a number of water compartments contain at least one screen of natural material, which serves as an attachment place for algae, and wherein means are provided for the supply of light, heat and oxygen. 2. Wastewater treatment plant according to claim 1, characterized in that the means for supplying light and heat comprise an at least partly transparent cover for the reservoir. Wastewater treatment plant according to claim 1 or 2, characterized in that the means for supplying oxygen comprise at least one conduit extending along the bottom of the reservoir, which is provided with openings at the location of the water compartments and which operation outside the reservoir is connected to an air or oxygen supply line. Wastewater treatment plant according to any one of the preceding claims, characterized in that the filter compartments contain filter material, the coarseness of which decreases the further the compartment is from the water inlet end of the purification reservoir. Wastewater treatment plant according to any one of the preceding claims, characterized in that the screens of natural material comprise reed mats and / or rush mats. Wastewater treatment plant according to any one of the preceding claims, characterized in that the screens of natural material are placed substantially vertically in the water compartments. 1003759 -9- Wastewater treatment plant according to claim 6, characterized in that the screens of natural material are placed between opposite walls of the respective compartment. Wastewater treatment plant according to claim 6, characterized in that the screens of natural material are provided with suspension means. 9. Wastewater treatment plant according to any one of the preceding claims, characterized in that the filter compartments are removable individual units. Wastewater treatment plant according to any one of the preceding claims, characterized in that the first water compartment has an inlet filter filled with natural filter material and that the inlet water distributes over at least the width of the compartment. 11. Wastewater treatment plant according to claim 10, characterized in that the inlet filter is provided with a partition dividing the inlet filter into an upstream and a downstream section, of at least one through-flow opening through which parts of the inlet filter communicate with each other, and of an inlet opening which is located in a vertical direction on one side of the inlet filter, said flow openings being viewed in a vertical direction, viewed in a region opposite the inlet opening. Wastewater treatment plant according to claim 10 or 11, characterized in that the inlet filter has passage openings which are formed and positioned such that in operation a uniform distribution of outflowing water 30 is obtained over said passage openings. Wastewater treatment plant according to any one of claims 10-12, characterized in that said passage openings are provided with grids. Wastewater treatment plant according to any one of claims 10-13, characterized in that the inlet filter is removable. 1003759 -10- 15. Wastewater treatment plant according to any one of the preceding claims, characterized by a buffer reservoir for the water to be purified and by pumping means, which supply the water to be purified in a dosed manner to the purification reservoir in operation. Wastewater treatment plant according to claim 15, characterized in that the buffer reservoir receives water to be purified in operation from a grease separator and / or a septic tank. Wastewater treatment plant according to any one of the preceding claims, characterized by a storage reservoir, that it collects water leaving the treatment reservoir and stores it for reuse. Wastewater treatment plant according to any one of claims 2 to 17, characterized in that the transparent cover is double-walled. Wastewater treatment plant according to any one of the preceding claims, characterized in that the treatment reservoir is a prefabricated and / or unit built up from prefabricated parts. 1003759