DE4433287A1 - Reducing pollution in water contg. e.g. chlorine - Google Patents

Abstract

In reducing the pollutants in chlorinated water, esp. from baths, swimming pools and water-processing plant, and which is intended for introduction into the open drain system, where the pollutants, in addn. to Cl2, consist of trihalomethanes, adsorbable halogen cpds. (AOX) and chloramine, formed from Cl2 and the organic cpds. in the water: (a) in a first stage, the trihalomethanes, AOX and chloramine are reduced; and (b) in a further stage, the water is dechlorinated by chosen neutralisation.

Description

The invention relates to a method and a system for reducing Pollutants in chlorinated water, preferably from baths, swimming basin and water treatment system and for introduction into the public sewage system is intended, the pollutants, in addition to the Chlorine, in particular consisting of trihalomethanes, AOX and chloramines, which are the connections between the chlorine and the water form organic substances.

Regulations regulate the discharge of waste water into public waste water systems steme. These wastewater are usually contaminated. To this Wastewater also includes water from public baths, swimming pools and water treatment systems, for example for filter back rinsing or overflow devices and no longer needed will. Because in public baths the water is sufficient for one purpose the disinfection with chlorine must occur in these waters Concentration values of over 0.3 mg / l free chlorine. Furthermore ent are in connection with organic water through the chlorination undesirable reaction products such as trihalomethanes (halo forms), AOX (adsorbable halogen compounds) and chloramines. Man has determined that such waters meet the limits required by law in some cases significantly exceed values.

Provisions also make it compulsory for everyone to swim Chlorine gas storage and dosing rooms equipped with sprinkler systems must be intended for the precipitation of leaked chlorine gas are. If chlorine gas escapes, chlorine-containing, acidic water is produced, the one can experience a significant drop in pH. Therefore this must also The water dechlorinates before it is fed into the public sewage system and, if necessary, also neutralized.

It is an object of the invention to develop a method and an installation to propose to carry out this procedure based on economic Way a reduction of the pollutants just mentioned as well as a Dechlorination, if necessary also neutralization of used ones Guarantee waters that prefer baths, swimming pools and water processing plants originate.

The solutions to the problem are particularly marked in the the features of claims 1 and 2 listed.

Let through the procedure shown and the proposed system the ge in an advantageous and in particular inexpensive manner  named pollutants and reduce the amount of free chlorine so far, as well adjust the pH of the water so that plants according to the invention the easily comply with the latest water law requirements.

Used in the reduction device for the adsorption of trihalomethanes and AOX and activated carbon powdered for the degradation of chloramines If this is the case, it can be filtered using the filter filtered out or slurried out and then either right activated or disposed of.

Finds granular form instead of powdered activated carbon Use, it can be easily removed from the reducing device and replace with new granular activated carbon. A filtering device is in not absolutely necessary in this case.

The invention makes it possible to dispense with activated carbon if the Reduction device, for example, with a uV rays emitting Device is equipped, either alone or in cooperation with Hydrogen peroxide or ozone to break down the trihalomethane pollutants ne, AOX and the chloramine is determined. Also with this execution case game can on a filter device downstream of the reduction device tion are waived.

The invention will be explained in more detail with reference to two schematically illustrated Ausführungsbei games according to FIGS. 1 and 2.

The plant 1 illustrated in Fig. 1 has a reducer 2, a filtering device 3 and a dechlorinating device 4, which are connected by a line 5. In line 5 , the water flows into the reduction device 2 from a source, not shown, containing the pollutants already described, chlorinated and no longer intended for use, from a bath, a swimming pool or from a water treatment system. The reducing device 2 in the example is preferably designed as a flow container that can be passed through on both sides, whereby other known and suitable container terformen are possible. In the example, the reduction device 2 is provided for receiving an adsorbent in the form of powdered activated carbon. Other known adsorbents can also be used. The reducing device 2 is connected to the filtering device 3 , which is equipped either with bag filters for receiving the washed-up and used activated carbon or using other known sludge trapping methods. The line 5 leads from the filtering device 3 to a dechlorination device 4 , the construction of which can roughly correspond to the device as described in DE 42 25 658.5 A1.

Similar or meanwhile improved devices of this type are in the pipeline the invention of course also applicable.

The water to be cleaned first flows into the reduction device 2 . This causes at least one adsorbent, here the powdered activated carbon, adsorption of the trihalomethanes and the AOX substances, and degradation of the chloramines. After this stage of the process, the water, which has already been partially cleaned, flows through the filtering device 3 to the discharge device 4 , in which, in a further stage of the process, the water is dechlorinated in a known manner and, if necessary, neutralized, in order then to be discharged into the public sewage system.

Both from the reducing device 2 and from the filtering device 3 can lead at least one further line, not shown, to a bath, swimming pool or water treatment system, also not shown, to indicate that the reducing device 2 , like the filtering device 3 , is part of a Water recycling circuit can be.

In the system i shown in FIG. 2, a filtering device 3 is dispensed with. Here, the line 5 leads from the reduction device 2 directly into the dechlorination device 4 . Such a construction is possible, for example, if granular activated carbon is provided as the adsorbent or if the reduction device 2 is equipped with a device for generating UV rays and with or without the aid of hydrogen peroxide or ozone, an adsorption and a degradation of the harmful substances mentioned enables. If granular activated carbon is used, it remains in the reduction device 2 until it is removed. Of course, it is also possible to provide a filtering device 3 in this system 1 , which is provided, for example, for filtering out suspended matter, wherein this filtering device 3 can be arranged either before or after the reducing device 2 . In this exemplary embodiment too, the reduction device 2 can be integrated into a water return circuit by means of a further line.

The reduction device 2 , the filtering device 3 and the decoupling device 4 do not have to be spatially separate devices of the system i, as could be assumed from the drawings. Rather, it is possible to incorporate the filtering device 3 into the reducing device 2 . It is even possible for a person skilled in the art to combine all three devices, or in the case of the system 1 according to FIG. 2, both devices in one overall device in order to obtain a system 1 which takes up little space.

At the beginning, reference was made to those provisions which make the need for sprinkler systems in chlorine gas storage and chlorine gas dosing clear. In the systems 1 just described, we therefore leads at least one line 6 from the rooms mentioned to the dechlorination device 4 . In both of the exemplary embodiments described, the dechlorination device 4 takes over both the dechlorination of the used water, which is enriched with pollutants, and the dechlorination of sprinkler water, which in exceptional cases can be caused by the escape of chlorine gas in said rooms. The dechlorination device 4 also takes over the neutralization of these waters, if this is necessary.

Claims (11)

1.Procedure for reducing pollutants in chlorinated water, which preferably comes from baths, swimming pools and water treatment systems and is intended for introduction into the public sewer system, the pollutants, in addition to chlorine, consisting in particular of trihalomethanes, AOX and chloramines, which are composed of Form connections between the chlorine and organic substances present in the water, characterized in that the reduction of the trihalomethanes, the AOX and the chloramines takes place in a first process stage and the water is dechlorinated with optional neutralization in a further process step. 2. Plant for performing the method according to claim 1, characterized in that a reduction device ( 2 ) is provided for carrying out the first process stage, to which a dechlorination device ( 4 ) connects. 3. Plant according to claim 2, characterized in that the Reduktionsein direction ( 2 ) is designed as a flow-through flow container. 4. Plant according to claim 2 or 3, characterized in that between the reducing device ( 2 ) and the dechlorination device ( 4 ) a Fil triervorrichtung ( 3 ) is provided. 5. Plant according to one of claims 2 to 4, characterized in that the reducing device ( 2 ) is designed to receive at least one adsor bens. 6. Plant according to one of claims 2 to 5, characterized in that the at least one adsorbent is formed by activated carbon, which either in is powdered or in granular form. 7. Plant according to one of claims 2 to 6, characterized in that the filtering device ( 3 ) is intended for separating the at least one present in pulverized form adsorbent. 8. Installation according to one of claims 2 to 7, characterized in that the reducing device ( 2 ) has a UV-emitting device which determines either alone or together with hydrogen peroxide or with ozone for the degradation of the pollutants trihalomethanes, AOX and chloramines is. 9. Plant according to one of claims 2 to 8, characterized in that the reducing device ( 2 ) is integrated in a water return device. 10. Plant according to one of claims 2 to 9, characterized in that the filtering device ( 3 ) is designed to receive bag filters. 11. Plant according to one of claims 2 to 10, characterized in that the dechlorination device ( 4 ) is intended both for receiving methane contaminated by trihalogen, AOX and chloramines and for receiving chlorine-containing, acidic sprinkler water.