NL8303208A - Purification of effluent water - by electrolysis using platinised titanium anodes and aluminium cathodes to release oxygen into the water - Google Patents

Abstract

Effluent water is purified by subjecting the water to electrolysis such that oxygen is developed in the water. Pref. the appts. comprises a purification vessel with inlet and outlet for the effluent water, and in between these a series of alternating anodes and cathodes, the anodes having a large surface and being formed of an electrochemically inert metal or metal alloy, esp. platinised titanium, and the cathode surface being formed from a metal or metal alloy with amphoteric properties, esp. aluminium. Pref. the outlet from the electrolysis vessel feeds into a funnel-shaped flocculation tank which is open at the top end to provide an outlet for the purified water and which has an outlet lower down for removing the flocculated aluminium hydroxide.

Description

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Method and device for purifying waste water.

The invention relates to a method and apparatus for the purification of waste water.

Purification of waste water takes place, inter alia, by adding a lot of oxygen, whereby oxidizable substances are broken down and the occurrence of anaerobic rotting bacteria is inhibited. In practice, the addition of oxygen usually takes place by means of air, for which compressed air is introduced into the waste water via distributors or the like.

This has the disadvantage that a lot of extra energy is consumed for compressing the air, distributing it in the water and the like. In addition, air contains only one fifth of the volume of oxygen, and the absorption of oxygen in the water is rather slow. This means that a lot of power is required to introduce sufficient oxygen for the desired oxidation into the water.

It is now the object of the invention to provide a method with which waste water can be efficiently and economically cleaned by means of oxygen.

To this end, the invention provides a method for purifying waste water, characterized in that the waste water is subjected to an electrolysis, wherein oxygen develops in the water. In order to apply this method, the invention provides a device, which is characterized by a purification vessel, provided with an inlet and an outlet for water to be treated, and with a number of alternately arranged anodes and cathodes, the anodes of which have a large surface area. consisting of an electrochemically inert metal or metal alloy.

If the waste water to be purified is passed through the electrolysis cell thus formed, while the anodes 35 and cathodes are applied to a suitable positive or negative potential, oxygen develops at the 85 '' ^ 3 * '> -2 - large anode surface in statu nascendi, which is very active in the oxidation of oxidisable pollutants in the waste water, platinum-plated titanium can be used efficiently for the anode.

In order to prevent hydrogen from developing in equivalent amounts of hydrogen at the cathode, it is preferred that the cathode surface be composed of metal or metal alloy with amphoteric properties.

It is particularly expedient to have the cathode-10 material consist of aluminum. During operation of the device it forms aluminates which dissolve in the water, but are rapidly precipitated by the approximately neutral pH (6-8) in the form of hydrated aluminum hydroxides, which are known to be highly capable of encapsulate dirt.

In order to make good use of this property, the device according to the invention can be designed such that the discharge of the purification cell is connected to a flocculation tank. In a practical embodiment, the device is such that the flocculation tank is funnel-shaped, has a purified water outlet at its upper open funnel end, and a flocculated aluminum hydroxide outlet at a suitable location below.

By allowing the water to flow through the tapered settling flocculation vessel after electrolysis, a level of aluminum hydroxide, which is capable of removing contaminants from impurities from the to filter. These contaminants can be removed by controlled removal of this layer of flakes. The drained aluminum flac with impurities can then be filtered and removed dry.

35 The result is highly purified waste water with a considerably lower biological or chemical oxygen consumption.

Although the purification device according to the invention allows complete cleaning, it is particularly intended for use in those industries, 8303103-3 - which are only allowed to discharge wastewater into the sewer against an important fine.

The invention will now be further elucidated with reference to the drawing, which in schematic side view shows an embodiment according to the invention.

In the figure, 1 denotes a waste water purification vessel, which is provided at the bottom left of its inlet side with an inlet 2 for waste water to be purified, while at the top right a drain 3 is arranged.

The cleaning vessel contains plate, rod or grid-shaped anodes 4 and cathodes 5, which are arranged alternately, that is to say always alternately. The anodes are connected to a positive potential, while the cathodes are connected to a negative potential. The anodes are expediently made of PT.TI or platinum-plated titanium, while the cathodes are aluminum.

20 A tapered flocculation vessel 6 is connected to the drain 3 of the electrolysis cell thus formed, which at its top has a drain 7 for purified waste water, and below it at a suitably chosen height a second drain 8, intended for draining out 25 flocked aluminum hydroxide 9, as will be explained in more detail below.

During operation of the device, the anodes 4 and cathodes 5 of the purification vessel 1 are connected to the desired positive and negative potential, respectively, and waste water according to arrow 10 is introduced into the feed 2. This water passes through the electrolysis cell 1, whereby of electrolysis to the anodes 4 oxygen ISN is being developed, which ensures oxidation of pollutants in the water. Because the anode material is inert, ie does not initiate any further electrochemical reactions, and thanks to the large anode surface area, the oxygen production is considerable, so that a high purification efficiency can be achieved.

During the electrolysis, normally 40 on the cathodes develop hydrogen. however, since the cathode 8 3 0 ~ '? 3 *> - 4 - * material (aluminum) in the form of aluminates in solution, will. no or little hydrogen will be generated.

The water, which has passed through the electrolytic cell 1, then reaches the flocculation vessel 6 via the pipe 3, in which it gradually rises. During this ascent, the initially dissolved aluminates flocculate in the form of aluminum hydroxide, which, due to the tapered shape of the flocculation tank, which expands the flow rate of the water, expands into a layer of flakes 9, which comes to lie at a height which depends on the flow rate of the water and the amount of alumina. By properly adjusting these parameters, it is possible to achieve that the layer 9 is placed at the level of the outlet 8.

This aluminum hydroxide flake layer now acts as an effective filter for absorbing dirt, so that a second cleaning of the waste water can take place in the flocculation vessel. The water passing through this filter layer 9 is finally discharged as purified water via line 7 in the direction of arrow 11.

Periodically, the flake layer 9, when it is saturated with dirt, must be removed, which is expediently done via the discharge 8 in the direction of arrow 12. The discharged material can then be filtered and dried, so that its removal does not present any problem .

Although the invention has been elucidated above with reference to a specific exemplary embodiment, it will be clear that numerous variations and modifications are possible without departing from the scope of the invention. For example, it is possible to use a cylindrical purification vessel, in which concentric cathodes and anodes are arranged, while, further, if the cathode material is suitably selected, the flocculation vessel can be separated. In addition, known types of pre- and post-filter devices can be added to the device.

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Further modifications and variants will be apparent to those skilled in the art from the above.

- conclusions -

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Claims (7)

Method for the purification of waste water, characterized in that the waste water is subjected to an electrolysis, in which oxygen develops in the water. Device for applying the method according to claim 1, characterized by a purification vessel, provided with an inlet and an outlet for water to be treated, and with a number of alternately arranged anodes and cathodes, of which the anodes have a large surface area, which consists of an electrochemically inert metal or metal alloy. 3. Device according to claim 2, characterized in that the anode metal consists of plated titanium. Device according to claim 2 or 3, characterized in that the cathode surface consists of metal or metal alloy with amphoteric properties. 5. Device according to claim 4, characterized in that the cathode material consists of aluminum. 6. Device according to claim 5, characterized in that the discharge of the purification cell is connected to a flocculation tank. 7. Device according to claim 6, characterized in that the flocculation tank is funnel-shaped, has a purified water outlet at its upper open funnel end, and a flocculated aluminum hydroxide outlet at a suitable location below. 8303208