DE102007049736A1 - Device for processing drinking water, comprises carrier, which contains titanium dioxide on its surface and is arranged for processing the water wetted by titanium dioxide by using light falling on titanium dioxide, and plastic container - Google Patents

Abstract

The device for processing drinking water, comprises a metal or plastic carrier (3), which contains titanium dioxide on its surface and is arranged for processing the water wetted by the titanium dioxide by using a light falling on the titanium dioxide, and a plastic container (1) having a container wall (2) with a permeable wall section for the light. The carrier is arranged within the container, so that the light falls on the titanium dioxide. The container is lockable by a closure (7) and is a polyethylene terephthalate-bottle that is to be opened again. The device for processing drinking water, comprises a metal or plastic carrier (3), which contains titanium dioxide on its surface and is arranged for processing the water wetted by the titanium dioxide by using a light falling on the titanium dioxide, and a plastic container (1) having a container wall (2) with a permeable wall section for the light. The carrier is arranged within the container, so that the light falls on the titanium dioxide. The container is lockable by a closure (7) and is a polyethylene terephthalate-bottle that is to be opened again. The carrier has a lattice-shaped or fine-meshed netted section. The carrier is made of porous material in the form of pourable material, expanded clay balls with titanium dioxide in its surface, planar material in the basic form, a material bringable in curved and/or bent form and an elastic material with a width smaller or larger to a half of the inner circumference of the container and is flexibly bendable for inserting into the container. The titanium dioxide is applied as titanium dioxide powder (6), which is admixed in color or applyable or sprayable coating medium. The titanium dioxide is doped titanium dioxide based on carbon. An independent claim is included for a carrier of a device for processing drinking water.

Description

The The invention relates to a drinking water treatment device with the above-mentioned features according to claim 1.

It is generally known that a surface of titanium dioxide (TiO ₂ ) forms electron-hole pairs when irradiated with sunlight, in particular at a wavelength of less than 390 nm. The resulting holes act as extremely strong oxidants, so that this effect can be used for the oxidative destruction of wastewater constituents and for water sterilization. Water treatment plants are currently under development from large, flat structures, over whose inclined surface water is passed in order to clean and condition it. Problems with such systems are that they require, apart from technical implementation problems, the operation of a circulation pump and the processing of large amounts of water. In regions with water scarcity, in which only small amounts of water are present, such systems are only limited use regardless of the technical complexity, with a view to a high evaporation rate of the water to be treated when flowing over a large open area.

The The object of the invention is a drinking water treatment device to propose, which also for the treatment of only small amounts of drinking water suitable is. In particular, such a drinking water treatment device should be made be constructed simple components.

These The object is achieved by the device having the features of the patent claim 1 solved. Advantageous embodiments are the subject of dependent claims.

Prefers Accordingly, a drinking water treatment device with a carrier, which has titanium dioxide on or in at least its surface and which for the treatment of the titanium dioxide wetting water under Use of falling on the titanium dioxide light is arranged. Of the carrier is inside the container arranged, the container with a container wall with at least one for to let the light through Wandungsabschnitt is formed and wherein the carrier within the container is arranged so that the light falls on the titanium dioxide. Thereby can z. B. a conventional transparent PET bottle by introducing such a carrier to a drinking water treatment device be converted.

Of the carrier is according to one first embodiment from one into the container pourable good formed, wherein the good on or in at least its surface the Titanium dioxide has. This carrier in the form of pourable material is preferably made of a porous Material, in particular of expanded clay spheres formed with the titanium dioxide on and in its surface.

Of the carrier is according to one second embodiment from a material which is flat at least in a basic form and at the same time formed from a material which can be brought into a bent and / or bent shape, wherein the material on or in at least its surface the Titanium dioxide has. This carrier can be made of an elastic material with a width greater than one Diameter of the container formed be and be elastically bendable for insertion into the container. This support is particularly preferably made of an elastic material with a width equal to or greater than one half inner circumference πd / 2 of the container designed and sufficiently elastic for insertion into the container bendable. As a result, the wearer puts on tight after loading an inner wall of the container on, wherein the carrier dependent From the remaining distance optionally has structures which a Passage, in particular a flow through the water to be treated to enable in the areas in which the light impinges on the titanium dioxide.

Of the carrier in particular has at least one latticed or preferably fine-meshed net-shaped section with or on at least its surface to the titanium dioxide. This allows one Passage, in particular a flow through the water to be treated in the areas where the light hits the titanium dioxide.

Of the carrier can be made of metal or plastic. The titanium dioxide can be as in paint or a paintable or sprayable coating medium blended titanium dioxide powder are applied to the surface. The Titanium dioxide is preferably carbon-based doped titanium dioxide.

Of the container is particularly preferably made of plastic, in particular a closable by a closure and re-opened Pet bottle.

When independently the preferred subject may be the wearer of such a drinking water treatment device from a material which is flat at least in a basic form and at the same time from a material which can be brought into a bent and / or bent shape be formed, wherein the material on or in at least its surface Titanium dioxide has.

An embodiment will be explained in more detail with reference to the drawing. It will be In the description of various embodiments, the same reference numerals for the same or equivalent components or functional features used, and also with reference to the respective other embodiment, essentially only differences between the embodiments will be described. Show it:

1 a first embodiment of a preferred drinking water treatment apparatus, wherein filled with titanium dioxide spherical bodies are filled in a light-penetrable container;

2 a second embodiment in which in such a container, a lattice-shaped carrier is used with titanium dioxide and

3 a manufacturing process for such a drinking water treatment device with a grid-shaped carrier.

How out 1 it can be seen, a preferred drinking water treatment device according to a first embodiment of a transparent to light L container 1 , Alternatively, other containers can be used as long as at least one wall section of a container wall 2 of the container 1 for the light L is permeable. In particular, the transmittance of light with wavelengths of relevance, which allow activation of titanium dioxide TiO ₂ as a photocatalyst.

In the container 1 is a variety of bodies of a bulk material as a carrier 3 * for titanium dioxide TiO ₂ . Preferably, the bulk material is made of expanded clay spheres. Expanded clay spheres are characterized by an open-pore structure, which forms a relatively large outside surface. As a result, a coating with titanium dioxide TiO ₂ can be achieved with a very large effective area. The titanium dioxide TiO ₂ is preferably provided as nanopowder and incorporated into, for example, a tacky and liquid binder, applied to the expanded clay spheres. After curing, particles of titanium dioxide are freely accessible from outside on the very large surface of the expanded clay spheres.

By adding water to be treated W into the container 1 the water W enters the surface of the expanded clay spheres, that is the support 3 * in contact. By incident light L, a photocatalytic reaction of titanium dioxide TiO ₂ , which causes a purification of the water W to be prepared.

To increase the cleaning effect, the container 1 a closure 7 for closing an opening 8th , which for pouring and pouring the carrier 3 * and the water W serves. Preferably, already a commercial PET bottle, which is available worldwide as a beverage bottle, as the container 1 be used. By filling the carrier 3 * In the form of the surface covered with titanium dioxide TiO ₂ , a drinking water treatment device is provided in a simple manner, which can be used everywhere to provide small amounts of drinking water for a person's personal needs.

2 shows a second embodiment of a drinking water treatment apparatus, which eliminates the disadvantage of the first embodiment, in which only a very small proportion of the total existing surface of the plurality of expanded clay spheres the externally incident light L and thus the access of particular UV light is accessible so that only a relatively small proportion of titanium dioxide TiO _{2 is used} effectively for water treatment. Instead of the expanded clay spheres is used as a carrier 3 one on an inner wall of the container wall 2 used adjacently arranged planar structure.

Particularly preferred is a carrier 3 which is not made of a continuous sheet material but of a material having a plurality of openings. In addition to a material with breakthroughs, in principle, tissue, scrims, knitted fabrics, etc. can be used. It is crucial that the actual material of the wearer 3 on or in the surface of titanium dioxide TiO ₂ , which upon passage of light L through the container wall 2 leads to a hole formation as a photocatalytic reaction. Here is the carrier 3 arranged so that in particular at its the container wall 2 facing outside wetting, preferably a Vorbeiströmen and / or flow of water to be treated W is possible. For example, a flat carrier 3 Have projections which sufficient flow space for the water W between the carrier 3 and the container wall 2 leave. In particular, however, there are gaps between individual solid structural elements of the carrier 3 designed so that the water W from the interior of the container 1 can enter into this with the titanium dioxide TiO ₂ on the support 3 to enter into an operative connection for the treatment of the water W.

The carrier 3 may consist of suitable materials known per se, in particular of metallic materials or plastic.

Preferably, the carrier becomes 3 provided by coating a grid or network structure of the base material with titanium dioxide TiO ₂ . For this purpose, the titanium dioxide TiO ₂ in a Farbma trix and brushed, sprayed on or sprayed on.

Titanium dioxides doped with carbon are more effective than titanium dioxide TiO ₂ , which is mixed in particular as titanium dioxide nanopowder in color. Their darker color has no adverse effect on the field of use as a drinking water treatment medium, since in the drinking water sterilization only the effectiveness of the photocatalyst is important. Preferably, such a constructed titanium dioxide catalyst does not diminish in its effect even over months. This is especially true if z. In a PET bottle as the container 1 with an internal TiO ₂ network as the carrier 3 always fresh groundwater or other treated water is treated and thus a lasting influence on the pH value is avoided.

If, for example, a plastic net as the carrier 3 is provided with a coating carrier as a paintable or sprayable coating medium mixed with titanium dioxide powder, it is preferably paid attention to a pronounced durability and flexibility. In particular, when deforming the carrier 3 , in particular in a rolling or

Re-unfold, being careful not to spall the TiO ₂ titanium dioxide spall.

To such a carrier 3 to introduce into the container becomes the carrier 3 like this in 3 is sketched, to a role with an outer diameter smaller an inner diameter of the opening 8th rolled up and then through the opening 8th in the container 1 plugged. When using a carrier 3 From an elastic material, the carrier unfolds 3 inside the container 1 again and ideally lies on the inside of the container wall 2 or close to it.

Preferably, a carrier is thereby 3 chosen with a width b which is greater than an inner diameter d of the container 1 is to unfolded or re-unrolled state of the wearer 3 to harness this. Particularly advantageous, but not mandatory, is a width b of the carrier 3 smaller or in particular equal to the inner circumference πd / 2 of the container 1 because the carrier 3 then preferably along the entire inner circumference of the container wall 2 at this creates.

Especially when using carriers 3 , which for insertion into the container 1 are configured elastically deformable, is applied to a coating with a color 5 or the like containing the titanium dioxide TiO ₂ in the form of, in particular, titanium dioxide powder 6 contains, made sure that damaging or spalling of the layer during elastic deformation of the carrier 3 is avoided.

For use in z. B. per se known glass or PET bottles, for example, a mesh or lattice-shaped carrier 3 be selected in size of a DIN A4 sheet. Such a TiO ₂ coated metal or plastic mesh is then tightly rolled up to an outer diameter of about 1 cm and through the opening 8th in the container 1 introduced. After the preferably due to the elasticity automatic unfolding or rolling apart the carrier is 3 preferably close to the inner wall of the container wall 2 on, so that incident light L after passing through the container wall 2 impinges as directly as possible on the titanium dioxide TiO ₂ . In particular, the distance is chosen so that the desired effect is not achieved by reaction of the light with a too thick layer between the container wall 2 and the titanium dioxide TiO ₂ water W is lost.

Preliminary investigations indicate that a sufficient disinfecting effect can already be achieved with such a drinking water treatment device over a period of about 1 to 3 hours in the case of incident sunlight or other UV radiation. Thus, a drinking water treatment device is provided, which essentially consists of the carrier 3 . 3 * whose surface has titanium dioxide TiO ₂ in an immobile surface bond. Such a carrier 3 . 3 * can be used at any location in a bottle known per se, in particular PET bottle, to provide a complete drinking water treatment device.

Claims (12)

Drinking water treatment device with - a carrier ( 3 ; 3 * ) which has titanium dioxide (TiO ₂ ) on or in at least its surface and which is arranged to treat water (W) wetting the titanium dioxide (TiO ₂ ) using light (L) incident on the titanium dioxide (TiO ₂ ) by - a container ( 1 ) with a container wall ( 2 ) with at least one wall portion permeable to the light (L), the support ( 3 ; 3 * ) within the container ( 1 ) is arranged so that the light falls on the titanium dioxide (TiO ₂ ). Drinking water treatment apparatus according to claim 1, wherein the carrier ( 3 * ) from one into the container ( 1 ) is designed to be free-flowing Well, wherein the material on or in at least its surface has the titanium dioxide (TiO ₂ ). Drinking water treatment device after Claim 2, wherein the carrier ( 3 * ) in the form of the pourable Guts of a porous material, in particular of expanded clay spheres with and in its surface of the titanium dioxide (TiO ₂ ) is formed. Drinking water treatment apparatus according to claim 1, wherein the carrier ( 3 ) is formed from a material which is flat at least in a basic form and at the same time from a material which can be brought into a bent and / or kinked form, the material on or in at least its surface having the titanium dioxide (TiO ₂ ). Drinking water treatment device according to claim 4, wherein the carrier ( 3 ) of an elastic material having a width (b) greater than a diameter (d) of the container ( 1 ) is formed and for insertion into the container ( 1 ) is elastically bendable. Drinking water treatment device according to claim 5, wherein the carrier ( 3 ) of an elastic material having a width (b) equal to or greater than half an inner circumference (πd / 2) of the container ( 1 ) is formed and for insertion into the container ( 1 ) is elastically bendable. Drinking water treatment device according to one of claims 4 to 6, wherein the carrier ( 3 ) has at least one latticed or in particular fine-meshed net-shaped section with or on at least its surface the titanium dioxide (TiO ₂ ). Drinking water treatment device according to one of the preceding claims, wherein the carrier ( 3 ; 3 * ) is formed of metal or plastic. Drinking water treatment device according to any one of the preceding claims, wherein the titanium dioxide (TiO ₂ ) as in color ( 5 ) or a spreadable or aufsprühbares coating medium blended titanium dioxide powder ( 6 ) is applied to the surface. Drinking water treatment apparatus according to any one of the preceding claims, wherein the titanium dioxide (TiO ₂ ) is carbon-based doped titanium dioxide (TiO ₂ ). Drinking water treatment device according to one of the preceding claims, wherein the container ( 1 ) is formed of plastic, in particular a means of a closure ( 7 ) is closable and re-opened PET bottle. Carrier of a drinking water treatment device according to one of the preceding claims, wherein the carrier ( 3 ) is formed from a material which is flat at least in a basic form and at the same time from a material which can be brought into a bent and / or kinked form, wherein the material has titanium dioxide (TiO ₂ ) on or in at least its surface.