NL1014497C2 - Treating unpurified drinking, spring and/or rain water comprises filtering using at least one layer of zeolite-containing material - Google Patents

Abstract

Treating unpurified water comprises filtering using at least one layer of zeolite-containing material. Treating unpurified water comprises filtering using at least one layer of zeolite-containing material. Independent claims are included for a water treatment system comprising water inlets and outlets, filter devices and water storage tanks, the water filtration system used and the use of zeolite-containing material for purifying drinking, spring and/or rain water.

Description

RAINWATER AND SPRING WATER TREATMENT WITH ZEOLITES

The present invention relates to a method for treating contaminated water, wherein the contaminated water is filtered.

The present invention also relates to a system for treating contaminated water by such a method, which system has one or more water intake and collection points, a pipe system connected to these points, one or more intermediate filtering devices, and optionally one or more contains water storage tanks. The invention also relates to a filtering device for applying the method in such a system and to the use of zeolite-containing material to purify contaminated water.

Such a method and filtering device, and such a system are known from an article published in WATERLINES entitled "Household water treatment 2", Technical Brief No. 59, Vol 17, no. 3, Jan. 1999, pp 15-18. It describes how household water can be obtained by subjecting the contaminated water to be treated to filtering treatments, such as by means of sand, stones, coal, or ceramic filters. To remove metals, such as iron, often found in groundwater or spring water, from the contaminated water, aeration and filtration over a sand filter is proposed. A drawback of the known method and device is, however, that no alternative is offered for removing from the contaminated water other substances, which are often regarded as harmful, such as metals.

35

It is the object of the present invention to provide a method, system and filtering device for treating contaminated water, in which a larger number of metals which are also harmful to the environment are removed from that water, and also the number for humans and animal harmful bacteria therein is reduced.

To this end, the method according to the invention is characterized in that the contaminated water contains drinking and / or rain and / or spring water, and that the filtration is carried out using one or more layers of zeolite-containing material, in order to obtain water flowing from 10 health perspective is at least suitable for carrying out household tasks. Accordingly, the system according to the invention is characterized in that the water intake points are connected to one or more water sources and / or rainwater collection points, and that at least one of the filtering devices is provided with a layer of zeolite-containing material.

It is an advantage of the invention that the zeolites having a volcanic or synthetic origin, because of their open structure, are very suitable for absorbing impurities, such as harmful metals which are also present in spring and / or rainwater. or to exchange and thereby improve the quality of the contaminated water and to increase its possibilities of use. Due to their microporosity, zeolites, especially after being heated to 350 degrees Celsius in vacuum, act as molecular sieves and are even capable of sieving particles starting from particles the size of ions and molecules. The water from below, from the ground, from surface water, or from (iceberg) mountains, or the water coming from above as rainwater or rainwater is usually available free of charge on site and can currently be added with the 35 proposed filtration if desired, with the addition of drinking water. - used as household water for a variety of household tasks, for which not necessarily i1014 49? - 3 - water of 100% drinking water quality is required. This could include flushing the toilet, cleaning and / or washing work, cleaning rooms, walls, porches, etc., washing windows or cars, watering agricultural land, greenhouses, garden or pond, showering or bathing, the use as rinsing or cooling water in industrial processes and the like, but also in improving the quality of water in developing countries in particular, 10 which, for lack thereof, is better used as drinking water for humans and animals. It is also an advantage that, while maintaining the effective operation, the filter speed can be increased to a few tens of cubic meters per square meter per hour.

15

It is noted in this regard that WO 84/03881 is known per se for a method of purifying water in which fish are bred. The zeolite used is clinoptilolite, which is used in an anion exchange mixture in a percentage of 40-20 70%, to avoid the need to regenerate the fish culture water regularly. However, the use of zeolites to obtain water of at least household quality from spring or rainwater is not known from this.

25

Experiments have shown that zeolites, especially clinoptilolite, are or are ideally suited and sufficiently available to extract heavy metals, including zinc, cadmium, lead, manganese, copper, arsenic, and iron from the filter clean water. The clinoptilolite also reduces the number of bacteria in the water, which is especially true for bacteria of the coli group, thermotolerant bacteria of the coli group and faecal streptococci. In addition, it filters solid particles from the water, making it clear. With regard to rainwater, it is noted that as a result of the lead, copper and zinc present on roofs, gutters and downspouts, the water collected and flowing therefrom absorbs heavy metals that are harmful to humans and the environment, which are subsequently captured by the clinoptilolite. In some circumstances, even in this way, somewhat dependent on the locally present degree of, for example, air pollution, treated water is obtained, which closely approximates our legal drinking water standards. Moreover, the non-toxic and no side effects clinoptilolite hardly appear to influence the hardness and acidity of the treated water. Phillipsite can also be used in water purification. Other examples of useful zeolites are: chabazite for softening water with a lot of magnesium ions or removing therefrom cesium and strontium, as well as erionite, heulandite, mordenite, analsite, natrolite, and edingtonite.

Another embodiment of the method according to the invention is characterized in that before and / or after filtering with zeolite-containing material, a pre- or post-filtration takes place.

Pre-filtering using, for example, sand, "Caviar Agricole", gravel and / or gravel, filters the coarse constituents from the contaminated water, so that the zeolite filtering agents do not quickly saturate or silt up. The so-called "Caviar Agricole", which is inert and available from Vitanova in France, can fulfill the function of sand filtration and, if desired, partially replace the sand.

Post-filtration using, for example, activated charcoal, improves the taste and odor of the treated water, removing therefrom any haze or cloudiness that could be caused by other added filtering material which may be used apart from the zeolite-containing material.

1014497 - 5 -

An embodiment of the system according to the invention, which can advantageously select a wide variety of effective filter variants, combinations of filter materials and percentage by weight, is characterized in that the at least one filter device has one or more, before and / or after filters, separate and / or or integrated filters, whether or not recirculating or aerated filters, coarse and / or fine filters, floating and / or fixed filters, serial and / or parallel filters, static and / or dynamic flow filters, micro / biological filters, up and / or or downstream operating filters, continuous or intermittently operating filters, electrically and / or electronically controlled filters, sensor or non-sensor filters, mechanical filters, membrane filters, ceramic filters, and the like. Preferably, the filters are provided with one or more interchangeable cassettes or cartridges containing one or more of the various pre, post and / or zeolite containing filter materials.

20 The water that can be stored in water storage tanks for a long time after treatment and can be pumped from there to tapping points, can further be used in caravans, temporary or simple houses, or for example on board ships.

25

The present invention, together with the further advantages and with reference to the accompanying drawing, in which corresponding parts indicated in the various figures with the same reference numerals, will now be further elucidated. Show:

Figures 1a-1e each show a schematic representation of the various ways in which the method and the system can be applied, together with filtering means according to the invention; shows

Figure 2 is another alternative to the system of Figure 1; and shows '3' • 'T' * ƒ '.1 -y1 * <i 4 --4' Y / - 6 -

Fig. 3 an embodiment of an optionally self-contained integrated variant of a filtering device according to the invention.

Figures 1a-1b show a schematically depicted residence, in the form of a house 1, which, however, could also be, for example, a boat, caravan or the like. In the case shown, rainwater or rainwater is collected on the roof 2 and led to a gutter 3. The rainwater collected also flows, also in the cases of figures 1c-le, after intake via a pipe system 4, one or more intermediate filtering devices MF and / or CL to a water storage tank 5, which is wholly or partly below or above the ground located. Instead of or in combination with such a rainwater system, a similar source, ground or mountain water system could be used, in which the water thus collected and more or less contaminated, if necessary via one or more filtering means MF, CL, to a water storage tank. 5 can be guided. Optionally via further filtering devices MF and / or CL and an automatically controlled drinking water replenishment unit 6 including pump, the water treated and pressurized in at least one of the filtering devices MF and / or CL can be taken off at various offtake points W and TOI. Schematic delivery points include: cisterns for the automatic toilet, a washing machine, water taps and the like. If desired, drinking water can be added to the unit 6 and / or the tank 5. Figures 1a-1e and 2 show several variants on which the present system can be built. An overflow device 0 connected to the water storage tank 5 is schematically shown. The excess water in the tank 5 can hereby be delivered to the surrounding soil 35, whether or not filtered through filters CL, IF.

1014497 - 7 -

Fig. 3 shows a possible embodiment of filtering means VF, CL, NF in the form of a combined integrated filtering device. This device can be provided with a tap K and then stand on its own filled with water. This filtering device may be arranged in one or more places in the illustrated water system in the tubing 4. The filtering means CL therein contain a zeolite-containing material, in the form of one or more layers of that material. Optionally, pre-VF and / or post-filtration layers NF may be provided therein, which may alternate with one or more layers of the zeolite-containing material. The whole can be integrated in an enclosure. If desired, a sensor system with optical and / or auditory signaling could be included therein, which indicates the moment when the adsorption capacity of the filter device decreases and it is due for replacement.

As a natural zeolite, for example, use can be made of: - clinoptilolite (Na, K) 6 [(AlO2) 6 (SiO2) 30] .24H20 - Phillipsite (K2, Na2, Ca) 2Al4Si12032]. 12H20 or from chabazite, erionite, heulandite, mordenite, analsite, natrolite, edingtonite, and the like, or a combination of zeolites can be used. In general, the zeolites referred to are of the type:

Mx / n [(A102) x (SiO2) y] .2H2 O where n is the charge of the cation Mn + and z is the number of moles of hydrated water. The synthetic zeolites have the naturally occurring ions of lithium, rubidium, cesium, beryllium, magnesium, strontium and barium in their structural formula.

Sand, the sand replacement "Caviar Agricole", pebble and / or gravel, is often used as the pre-filtration layer VF, while post-filtration NF is often done with activated carbon 1014497-8. The filtering devices shown in the figures are fixed and static, i.e. they operate under gravity. A wide variety can be applied in the field of filtering agents.

5 To be mentioned are: separate and / or integrated filters in the tank 5, whether or not recirculating or aerating filters in the tank 5, coarse and / or fine filter layers, floating and / or fixed filters in the tank 5, serial and / or parallel filters, static («naturally flowing 10) and / or dynamic (« pump forced) flow flashers, micro / biological, up- and / or downstream operating filters, continuous or intermittently operating filters, electrically and / or electronically controlled filters, whether or not sensor-driven filters, mechanical filters, ceramic filters, and the like. Preferably, the filters are provided with one or more interchangeable cassettes or cartridges containing one or more of the various pre, post and / or zeolite containing filter materials.

The ion-exchanging zeolite material filters particles from 0.0001 / zm from the contaminated water, while conventional mechanical filters filter out particles from 0.2 mm.

1014497

Claims (13)

A method for treating contaminated water, wherein the contaminated water is filtered, characterized in that the contaminated water contains drinking and / or rain and / or spring water, and that the filtration is carried out using one or more layers of zeolite-containing material, in order to obtain water that is at least suitable from a health perspective for carrying out household tasks. 2. Process according to claim 1, characterized in that the zeolite-containing material contains at least one or more of the following zeolites: clinoptilolite, phillipsite, chabazite, erionite, heulandite, mordenite, analsite, natrolite, and edingtonite. Method according to either of Claims 1 and 2, characterized in that a pre- or post-filtration takes place before and / or after filtering with zeolite-containing material. Method according to claim 3, characterized in that the pre-filtration using sand, "Caviar 25 Agricole ", gravel and / or gravel is carried out. Process according to either of Claims 3 or 4, characterized in that the post-filtration is carried out using activated carbon. 30 6. System for treating contaminated water by the method as claimed in any of the claims 1-5, which system has one or more water intake and collection points, a pipe system connected to these points, one or more intermediate filtering devices, and optionally one or more contains more water storage tanks, characterized in that the water intake points are connected to one or more water sources and / or 1014497-10 rainwater collection points, and that at least one of the filtering devices is provided with a layer of zeolite-containing material. System according to claim 6, characterized in that the zeolite-containing material in the at least one filtering device contains clinoptilolite, phillipsite, chabazite, erionite, heulandite, mordenite, analsite, natrolite, and / or edingtonite. System according to claim 6 or 7, characterized in that the at least one filtering device has one or more, for and / or after filters, separate and / or integrated filters, whether or not recirculating or aerated filters, coarse and / or fine filters, floating and / or fixed filters, serial and / or parallel filters, static and / or dynamic flow flashers, micro / biological filters, up- and / or downstream operating filters, continuously or intermittently operating filters, electrically and / or electronically controlled filters, whether or not sensor-controlled filters, mechanical filters, membrane flashes, ceramic filters, and the like. Filtering device for carrying out the method according to any one of claims 1-5 in a system according to any one of claims 6-8, characterized in that the filtering device is provided with a layer of zeolite-containing material. Filtering device according to claim 9, characterized in that a pre- and / or post-filter is integrated in the filtering device. Filtering device according to one of claims 9 or 10, characterized in that the filtering device is provided with one or more 1014497-11 - exchangeable cassettes or cartridges, which are provided with one or more filtering materials. 12. Use of zeolite-containing material to purify contaminated water containing rainwater and / or spring water, to obtain water of at least household quality. Use according to claim 12, characterized in that the zeolite-containing material, which contains clinoptilolite, is used to purify contaminated water, mainly containing rainwater and / or spring water, from heavy metals, including zinc, cadmium, lead , copper, arsenic, manganese, and iron, to obtain potable water. 1014 497