DE4028045A1 - Procedure and device for treatment of water with ozone to remove metal ions - measurement of ozone content of treated water before filtration is used to adjust ozone content by controlled dosing with raw water - Google Patents

Abstract

Procedure for treating water with ozone has treated water stream (12) dosed with additional ozone-consuming raw water at a rate determined by the required residual ozone content level upstream of the filter (18). The residual ozone level is chosen so that at the end of the filtration process the ozone content of the water has been fully consumed and the product water is completely free of ozone. The residual ozone content of the water before filtration and downstream of the dosing point is continuously measured. The ozone content of the water may be measured indirectly from the ozone content of a gas or air stream passed in contra-flow through the water or passed over the surface of the water. The treated water is pref. passed through a static mixer (32) after dosing and before measuring the residual ozone content. USE/ADVANTAGE - Used in the preparation table waters and mineralised waters, in which ozone is used to convert substances such as heavy metals (e.g. iron, manganese), to a form which can be removed by filtration. The effectiveness of the process is improved so that activated-carbon filtration is unnecessary.

Description

The invention relates to a method for processing water, especially table or mineral water, in which an ozone-depleting ingredient, such as heavy metal ion containing raw water stream under transfer Ren at least part of the ingredients in a fil moldable form with ozone and then is filtered to form pure water. The Erfin dung further relates to a device for processing of water, in which an ozone-depleting ingredient containing raw water stream via an ozone generator Ozone can be applied and then with the formation of Pure water can be filtered in a filter.

Mineral waters often contain dissolved heavy metals, such as Fe ²⁺ and Mn ²⁺ ions, which can lead to impairment of taste and / or discoloration of the water due to subsequent precipitation.

To remove the heavy metals, it is known to apply ozone to the raw water in order to thereby oxidize the dissolved iron and / or manganese ions and convert them into filterable compounds which are difficult or insoluble in water. While the Fe ²⁺ ions are converted into colloidal iron (III) oxide hydrate while consuming ozone and are precipitated as iron hydroxide on a downstream gravel filter, the Mn ²⁺ ions are at least partially oxidized to soluble permanganate (VII) by the ozone , to reduce it into filterable manganese (IV) oxide (manganese dioxide) an additional activated carbon filter is required in the flow direction behind the gravel filter. The active charcoal filter is also used for the reduction (depletion) of residual ozone contained in the water, because the raw water is mostly overstoichiometrically exposed to ozone due to the poor dosability. On the other hand, in order to obtain perfect, germ-free mineral water, it is necessary to backwash the active carbon filter from time to time and to replace the activated carbon at longer intervals. In addition to the resulting effort, the known method is considered to be disadvantageous in that the ozone system for oxidation of the Mn ²⁺ ions to form permanent ganate (VII) must be designed to be relatively large.

Proceeding from this, the object of the invention reasons, the method and the device of the beginning specified type to improve that a Activated carbon filtration is unnecessary.

To solve this problem, according to the invention the features specified in claims 1 and 13 beaten. Advantageous refinements and training The invention results from the dependent An sayings.

The invention is based on the idea of the residual ozone content in the raw water flow to be filtered is independent  gig of the amount of ozone injected so low keep that a full drain during fil tration also possible without reduction by activated carbon is. This is achieved according to the invention in that additional to the raw water flow charged with ozone Raw ozone-depleting water in accordance with a pre- Filtration adjusted residual ozone content becomes. According to a preferred embodiment of the Erfin The residual ozone content before the filtration preferably measured continuously and the additional raw water according to the deviation of the measured NEN residual ozone content of a preferably adjustable setpoint is the raw water flow charged with ozone added. The measurement of the residual ozone content can be done before or after the additional raw water is added sers done.

The residual ozone content is advantageously determined indirectly by continuously measuring the Ozone content in a countercurrent through the water or gas or air carried over the water surface current, preferably by means of spectral analysis. With this Measurement method is also in the presence of heavy metal exact ozone determination in water is possible.

An advantageous embodiment of the invention provides before that the raw water flow and the metered raw water before measuring the residual ozone salary preferably along a static mix Range be mixed so that the ozone-depleting Ingredients of the raw water metered in evenly  Raw water flow can be distributed. In addition or older natively, the raw water charged with ozone can electricity after the raw water has been added delays the Filtration are fed. The metered raw water is expediently from the raw water stream before its ozone branched as a bypass.

Another advantageous embodiment of the invention stipulates that the redox Potential of the pure water is measured. When they occur of ozone in pure water and / or in case of under or over a predetermined metering rate of the metered The ozone generation rate can be tracked in raw water.

In a preferred device for processing Water is the raw water stream that is exposed to ozone additional ozone-depleting raw water as specified residual ozone content to be set in front of the filter mixable. The filter is, for example, as gravel Filter formed, on the gravel filling after egg After a certain running-in period, the difficult or insoluble one Precipitate transferred ingredients. In principle, a multilayer filter can also be used will.

Another preferred embodiment of the invention ignores the raw water flow in front of the ozone generator branched bypass in front of that behind the ozone generator a motorized adjustable control valve in the raw water serstrom flows. The control valve is advantageous via a preferably designed as a PID controller  Controller according to the deviation of the measured remainder Control ozone content from an adjustable setpoint bar.

In the following the invention is based on one in the Drawing shown in a schematic manner example explained in more detail.

The only figure shows the flow diagram of a Mi mineral water treatment plant.

In the mineral water treatment plant with a pump 10 ge through a raw water line 12 conveyed raw water flow via an ozone injector 14 with ozone from an ozone generator 16 and then fed to a gravel filter 18 , at the outlet 19 of which the pure water is drawn off, for example for bottling becomes. Prior to the ozone injector 14 again opening out at the point 28 into the raw water line 12, bypass 20 branches off, which is acted upon with ozone raw water portion can be current-metered through which a portion of the ozone-free raw water via a motor adjustable Re gelventil 22nd The control valve 22 is controlled by a PID controller 24 which is charged with the measured values of the residual ozone determined by a measuring device 26 in the raw water flow before entering the gravel filter 18 .

The measurement of the residual ozone content is carried out in that an air stream is passed past the raw water stream or at a part branched off at the measuring point 30 from the raw water stream, the air stream absorbing ozone from the raw water stream according to Henry's law. The ozone content of the air flow, which is proportional to the ozone content in the raw water flow, is continuously determined by spectral analysis. The setting of a defined residual ozone value ensures that the pure water emerging at the gravel filter 18 is ozone-free.

An arranged between the mouth 28 of the bypass line 20 and the ozone measuring point 30 static mixing section 32 ensures good mixing of the two water flows.

To limit and roughly adjust the flow rates, 20 manual adjustment valves 34 and 36 are provided both in the raw water line 12 and in the by pass. In the direction of flow behind the manual adjustment valves 34 , 36 arranged volume flow meters 38 and 40 serve to determine the flow rates in the respective part of the flow. A arranged in the flow direction behind the ozone injector 14 in the raw water pipe 12 outgassing container 42 allows the removal of excess ozone. At the outlet 19 of the gravel filter 18 there is a son de 44 with which the redox potential of the pure water and thus its freedom from ozone is monitored.

Claims (20)

1. A process for the treatment of water, in particular table water or mineral water, in which an ozone-depleting ingredient, such as heavy metal ions, contains raw water stream containing at least some of the ingredients in a filterable form with ozone and then filtered to form pure water is characterized in that the ozone-charged raw water stream additional ozone-depleting raw water is metered in according to a pre-filtration to set the residual ozone content. 2. The method according to claim 1, characterized in that that the residual ozone content is adjusted so that it completely consumed during the subsequent filtration becomes. 3. The method according to claim 1 or 2, characterized records that the residual ozone content prior to filtration is set so that the pure water is ozone-free is. 4. The method according to any one of claims 1 to 3, characterized characterized in that the residual ozone content before the fil tration is preferably measured continuously and that the additional raw water according to the Deviation of the measured residual ozone content from one preferably adjustable setpoint that be with ozone  opened raw water flow is metered. 5. The method according to claim 4, characterized in that the residual ozone content after the addition of additional raw water is measured. 6. The method according to any one of claims 4 to 5, characterized characterized that the residual ozone content is indirect by continuously measuring the ozone content in one in countercurrent through the water or over the Gas or air flow led water surface will measure. 7. The method according to any one of claims 4 to 6, characterized characterized in that the raw ozone water flow and the metered raw water before Measurement of the residual ozone content preferably along be mixed in a static mixing section. 8. The method according to any one of claims 1 to 7, characterized characterized in that the raw ozone water flow after admixing the raw water hesitates to filter. 9. The method according to any one of claims 1 to 8, characterized characterized that the metered raw water from the raw water flow before it is exposed to ozone is branched off as a bypass. 10. The method according to any one of claims 1 to 9, characterized characterized that to monitor the ozone free  measured the redox potential of the pure water becomes. 11. The method according to any one of claims 1 to 10, there characterized in that the ozone generation rate when falling below or exceeding a predetermined Dosing rate of the metered raw water and / or at Occurrence of ozone in the pure water is tracked. 12. Apparatus for the treatment of water, in particular of table or mineral water, in which raw water containing an ozone-depleting ingredient is supplied with ozone via an ozone generator and can then be filtered to form pure water in a filter, characterized in that the ozone-charged raw water stream ( 12 ) additional ozone-depleting raw water can be added in a metered manner in accordance with a residual ozone content to be set in front of the filter ( 18 ). 13. The apparatus according to claim 12, characterized in that the filter ( 18 ) is designed as a gravel filter or multi-layer filter. 14. The apparatus of claim 12 or 13, characterized by a measuring device ( 26 ) arranged in the flow direction upstream of the filter ( 18 ) for determining the residual ozone content. 15. The device according to one of claims 13 to 14, characterized by a in front of the ozone generator ( 14 , 16 ) from the raw water stream ( 12 ) branched bypass ( 20 ) behind the ozone generator ( 14 , 16 ) via a motor-adjustable control valve ( 22 ) flows into the raw water stream ( 12 ). 16. The apparatus according to claim 15, characterized in that the control valve ( 22 ) via a preferably designed as a PID controller controller ( 24 ) according to the deviation of the measured residual ozone hold of an adjustable setpoint is controllable. 17. The apparatus of claim 15 or 16, marked net by a in the raw water stream ( 12 ) between re regulating valve ( 22 ) and filter ( 18 ) arranged before preferably static mixing section ( 32 ). 18. Device according to one of claims 12 to 17, characterized by a redox potential probe ( 44 ) arranged in the pure water behind the filter ( 18 ). 19. Device according to one of claims 12 to 18, characterized by an in the raw water flow ( 12 ) and / or in the bypass ( 20 ) arranged adjustable men gene valve ( 34 , 36 ). 20. Device according to one of claims 12 to 19, characterized in that the raw water flow ( 12 ) acted upon by ozone is passed through an outgassing container ( 42 ) for ozone.