NL8200080A - Potable water prodn. from well water by membrane filtration - excluding air to prevent pptn. of dissolved e.g. iron cpds. - Google Patents

Abstract

The arrangement is intended for producing potable water from water containing dissolved impurities by filtration through a membrane, partic. if the untreated water contains dissolved components, such as iron cpds., which, in contact with air, produce a ppte. e.g. hydroxide, that reduces the effectiveness of the membrane in a short time. Filtration through the membrane is therefore carried out with the exclusion of air. The water may be pumped up from an under -ground water-bearing (e.g. sand) stratum by an immersion pump placed in a well, whilst the upper end of the bore hole is pref. sealed. The filter permeate may be aerated, e.g. in a sand bed filter, and the residual water may be passed back to a (deeper) underground stratum. Used for winning potable water from underground well by membrane filtration. The filter membrane used has a long effective life, thus eliminating regular cleaning and/or replacement. The amt. of water passed per unit filter area remains high over a long period. This filtration combined with subsequent aeration directly produces potable water not requiring the addn. of chlorine etc. as not only soluble impurities such as salts are removed, but also bacteria and viruses.

Description

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Short designation: Method for extracting water.

The invention relates to a method for recovering water by at least subjecting a dissolved impurity-containing aqueous liquid to a membrane filtration and recovering the obtained permeate.

Such a method of extracting water, such as drinking water from sea water, is generally known.

This known method has the drawback that if, for example, the water to be subjected to the membrane filtration contains iron compounds, these iron compounds under the influence of air change into iron hydroxide which is finely dispersed in the water and which easily deposits on the membranes and gives rise to contamination of the membranes and deterioration of their action. In order to overcome this deterioration, it is therefore necessary to either frequently clean the membranes or regularly replace the membranes or to apply both measures.

The object of the invention is now to provide a method in which these drawbacks do not occur and in which the membranes can be used for a very long time without deterioration of their properties.

This object is achieved according to the invention in that a compound containing water, which can be converted into an insoluble substance and which can be converted into an insoluble substance, is subjected to a membrane filtration, substantially without the action of ambient gases, and the resulting permeate is obtained.

When such a method is used, the dissolved impurities which would be converted into insolubles under the influence of ambient air remain completely in solution, so that no solids formed under the influence of ambient air on the membranes and therefore these membranes have a very long longevity.

Another important advantage is that the amount of liquid transmitted per unit of membrane surface, the so-called flux, remains very high over time.

The method according to the invention is in particular applied to aqueous media containing a different influence of ambient gases convertible iron compound into an insoluble compound.

In order not to allow the aqueous liquid to be subjected to the membrane filtration to come into contact with ambient gases, it is recommended that the aqueous liquid be pumped up by means of an underwater pump, and preferably from an underground source, whose mouth is closed gas-tight.

* In this way, ferrous groundwater can easily be converted S 2 0 Ö 0 8 0 '\ ϊ ί -2- into drinking water at any desired location with the aid of water-cleaning systems that are effective for a long time.

In order to be able to use the permeate obtained in the process according to the invention as drinking water, it is recommended to aerate the permeate 5 and, if certain compounds are precipitated in the permeate during this aeration, to pass the water over a filter mass. In this way it is easy to obtain good drinking water from any underground source from any underground source by pumping this water up with an underwater pump and subjecting it to membrane filtration under exclusion of the action of ambient air and then aerating the obtained permeate in order to give drinking water a good taste.

Finally, it is particularly recommended to return the non-permeated aqueous liquid obtained in the membrane filtration into the soil below the level at which the aqueous liquid to be cleaned is extracted. Namely, in general, the aqueous liquid for recovering water according to the method of the invention is extracted from a sand layer, located under a peat layer, while the concentrated aqueous liquid after the membrane filtration with the impurities contained therein is returned to the ground at the location of a second sand layer, which is located under the first sand layer and is separated from it by a clay layer.

The invention also relates to an installation for carrying out the method according to the invention for recovering water, comprising a membrane filtration unit provided with a liquid supply 25 as well as a permeate discharge and an aqueous liquid discharge and a pump for the supply of aqueous liquid connected to the membrane filtration unit supply, which device is characterized in that the pump used can supply a dissolved impurities containing aqueous liquid to be purified to the membrane filtration unit, substantially without the action of ambient gases.

The pump particularly advantageously consists of an underwater pump, which underwater pump is preferably placed in an underground well, the mouth of which is closed in a substantially gastight manner with respect to ambient gases.

The invention will now be elucidated on the basis of an exemplary embodiment with the aid of the drawing, in which: Fig. 1 shows a diagram for carrying out the method according to the invention and - Fig. 2 another embodiment.

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Fig. 1 shows a membrane filtration unit 1, provided with a feed 2, as well as a permeate discharge 3, and a membrane filtration unit discharge 4, through which it is possible to discharge more impurities containing aqueous liquid.

The membrane filtration unit 1 is connected by means of a supply line 5 to an underwater pump 6 placed in a sand layer 7 located under egg layer 8, the pump 6 being surrounded by a filter 20.

Water from water source 19 present in this sand is supplied to the membrane filtration unit by means of the underwater pump 6.

The permeate or aqueous liquid obtained via membrane filtration unit permeate discharge 3 is then passed through a sand bed 9, through which air is passed through air supply IQ.

At the bottom of the sand bed 9, for example in the form of a column, a drinkable water is obtained via drinking water outlet 11.

It goes without saying that this water can also be used for watering purposes in horticulture.

By means of a seal 12, it is ensured that the mouth of the drill bit 13, through which the supply pipe to the pump and the cable 18 for the operation of the submersible pump 6 runs, is airtight, so that no ambient air can enter the source 19 ° There, spraying could give rise to the precipitation of certain compounds, such as iron compounds, which are converted into iron hydroxide under the influence of air. Cable 18 is connected to an electrical power source 21.

The aqueous product obtained from the membrane filtration unit discharge 4 is recycled back into the soil by means of conduit 14 in a second sand layer 15, which is located below the first sand layer 7 and is separated therefrom by clay layer 16.

Fig. 2 shows another embodiment in which a centrifuge 30 6 'is used for supplying the aqueous liquid, which centrifugal aqueous liquid from the sand layer is supplied to the membrane filtration unit 1. Instead of a centrifugal pump, also use a gear pump.

The pressure in the membrane filtration unit or units can be controlled by means of a pressure regulating valve 17.

As can be seen in Fig. 2, the aqueous liquid is here extracted from the bottom in a layer, which is located under a clay layer, followed by a peat layer, fine sand layer and coarser sand layer, after which the water-containing layer finally follows at greater depth. .

An important advantage of the method according to the invention is that the groundwater pumped from an underground water source after cleaning 8200080-4- in the membrane filtration unit and aeration with air, can be used directly as drinking water without adding large amounts of disinfectants such as chlorine. since not only soluble impurities such as salts are retained in the membrane filtration unit, but also bacteria and viruses, so that the permeate obtained can be used directly without harmful consequences for human health.

For the sake of completeness, it is noted that also in the embodiment according to Fig. 2 the drill shaft 13 is provided with a seal 12, which prevents entry of air to the aqueous liquid in the well.

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Claims (13)

1. A method for recovering water by subjecting a dissolved impurity-containing aqueous liquid to at least a membrane filtration and recovering the obtained permeate, characterized in that a compound which can be converted into an insoluble substance under the influence of ambient gases, aqueous liquid, subjected to the exclusion of ambient gases from membrane filtration and the permeate recovering. 2. Process according to claim 1, characterized in that an aqueous liquid containing iron-1G compound, which can be converted into an insoluble compound under the influence of ambient gases, is used. Method according to claim 1 or 2, characterized in that the aqueous liquid is pumped up by means of an underwater pump. Method according to claims 1 to 3, characterized in that the aqueous liquid is pumped from an underground source. Method according to one or more of the preceding claims, characterized in that the mouth of the bore to the aqueous liquid is closed in a substantially gastight manner. Process according to one or more of the preceding claims, characterized in that the recovered permeate is aerated. Method according to one or more of the preceding claims, characterized in that the purified water or permeate is passed through a filter mass. 8. Method according to one or more of the preceding claims, characterized in that the non-permeated aqueous liquid obtained during membrane filtration returns to the soil. 9. Device for recovering water by subjecting a dissolved impurity-containing aqueous liquid to a membrane filtration, comprising a membrane filtration unit, comprising a membrane filtration unit liquid supply, as well as a permeate discharge and a membrane filtration unit discharge and a pump for the supply of aqueous liquid. connected to the membrane filtration unit feed, characterized in that the pump (6) used can supply a dissolved impurities containing aqueous liquid to be purified to the membrane filtration unit substantially without the action of ambient gases. 8200080 -6- Device according to claim 9, characterized in that the pump (6) consists of an underwater pump. 11. Device as claimed in claim 9 or 10, characterized in that the submersible pump is placed in an underground source, the mouth of which is closed in a substantially gastight manner with respect to the environment. Device according to one or more of the preceding claims, 9 to 11, characterized in that the device is provided with a permeate aeration unit. Device according to one or more of the preceding claims 9 to 12, 10, characterized in that the device comprises a filter bed. 8200080