DE3809733A1 - Process for water purification - Google Patents

Abstract

A process for water purification in a fixed-bed reactor is described, in which, to the aqueous media introduced into the reactor, are added biological and/or biochemical substances in a dose depending on amount and type of organic constituents present in the aqueous media.

Description

The invention relates to a method for water purification in one Fixed bed reactor. The method also relates to a device for Implementation of the procedure.

A fixed bed reactor is known to consist of a cylindrical Cloak, with fillers and / or other installation elements is provided, which represent a stationary phase. Farther For example, a fixed bed reactor comprises an inlet and a outlet. This Reactor type is well known and in textbooks of process engineering described in detail (see O. Levenspiel, Chemical Reaction Engineering, Second Edition 1972).

It is customary to use fixed bed reactors for water treatment. For example, so-called trickling filters have been used for a long time used in many places for biological wastewater treatment (cf. Imhoff u. Imhoff, Taschenbuch der Stadtentwässerung, 25th edition 1979). On the packing of the trickling filter is formed by the coincidentally with the wastewater registered microorganisms a so-called biological lawn containing the organic pollutants in Biomass, carbon dioxide and water converts.

As described by the trickling filter, so far all types operated by fixed bed reactors for biological water treatment. The composition of the biological lawn and its Performance in terms of degradation of organic contaminants is registered by accidentally with the wastewater Microorganisms determined. The cleaning performance is due this randomness is not optimal. Disadvantages of this random registered "wild biology" show up in a restricted Cleaning performance in terms of rate of degradation and final degradation as well as fluctuations in the cleaning performance due to external influences. One consequence of these disadvantages is that the reaction volumes the biological fixed bed reactors operated on this basis have to be designed large. Are the reactors with a Random biology populated, so there is another disadvantage a solids discharge, which can be achieved with the random biology Cleaning performance continues to decrease, because too much biomass formation connected with it.

It was therefore the object of the cleaning performance of the known To improve fixed bed reactors, that means that at the same or reduced reaction volume in a fixed bed reactor the accumulation of solids is reduced and the contaminated Water in less time, with better final degradation and at improved process stability over time biologically and / or biochemically purified under aerobic or oxygen-poor conditions becomes. There was also the task of effective intervention options  to create process fluctuations.

This problem is solved by a method of the beginning genus mentioned to see its characterizing features therein are that the introduced into the reactor aqueous media biological and / or biochemical substances in an amount and Type of organic ingredients present in the aqueous media dependent metering be added.

Surprisingly occurs in the implementation of the invention Method in which the biological and / or biochemical Substances targeted to the water depending on the organic Freight, a significant improvement in water purification performance although the addition of the biological and / or biochemicals an additional organic contaminant representing the water.

With the method according to the invention, it is possible to large amounts of organic ingredients at low reaction volume to carbon dioxide and reduce water, always a high degree of purification with minimal solids discharge and a high process stability is achieved. An advantage of the process is that the reactor because of the insignificance of Feststoffaustrags no separation stage must be connected downstream of the separation of the solid. The However, cleaning performance in highly polluted waters can by Downstream of a separation stage can be improved.

With the method according to the invention, the most diverse be cleaned aqueous media. Wastewater different Origin from Kummune, trade and industry can with the procedure pre-cleaned according to the invention, before it in the public sewer system is entered or it can be fully cleaned before it enters waters. Likewise Groundwater and waters containing organic ingredients are contaminated, subjected to a cleaning. Farther Aqueous wastes and special waste can be pre-cleaned to to introduce them to the public sewer network.

In the embodiment of the method according to the invention are the aqueous medium biological and / or biochemical substances added. In the subclaims it should be noted that as biological substances can be added to micro-organisms, as Examples are called mixed cultures of dry bacteria with the Designation "DBC plus". These mixed cultures have very high specific Degradation rates for certain organic compounds. at the bacteria are exclusively hygienically harmless Saprophytes. Most bacterial cultures for the "DBC plus "are facultative anaerobic, which means that they are both under Exist oxygenation as well as oxygen deprivation can. Depending on the type of organic pollution may be different  Mixture types are used.

The company Röhm has been providing enzymes and enzyme mixtures for a long time the most diverse fields of application. Become predominantly these in the areas of analytics, food technology and Leather processing used, not yet in the field of water purification. Enzymes are biocatalysts, they accelerate specific biochemical reactions. Enzymes are made from biological Won substances. The acceleration of specific biochemical Reactions can be for the degradation of organic impurities use. Depending on the type of organic pollution can different enzymes or enzyme mixtures are used z. B .:

pollution enzymes fats lipases proteins proteases Strength amylases

The above-mentioned mixed cultures of microorganisms as well as the listed enzymes are only non-limiting Examples. The optimal biological and / or biochemical substances and the optimal amounts added without difficulty, especially experimentally, closer determine.

The speed of the degradation reaction that biological Substance effect is in the process according to the invention by the Supply of oxygen accelerates. The type and amount of oxygen addition is determined by the type and amount of impurities as well as economic aspects.

Most are subject to the process of the invention treated waters fluctuations in quantity and type Contamination and / or with respect to the volume flow. These Process fluctuations can be controlled by appropriate time-proportional, Level dosage proportional or accident-proportional dosage or eliminate. For this purpose, appropriate dosing be provided. In many cases, moreover, through a buffering of the aqueous media before the supply to the Reactor a fluctuation compensation can be achieved. For many of them Cleaning cases to which the method according to the invention is applied are already such buffer and equalization basins, Primary clarifier, neutralization tank or the like known.

The process according to the invention should be used to minimize the solids discharge preferably operated vertically from bottom to top  otherwise, due to the gravitational effect in Combination with the flow direction to an increased solids discharge which reduces the cleaning performance of the process. Furthermore, pressure fluctuations must be avoided in order to the loose solids deposited in the interstices are not to stir up and deliver. It is recommended to use the reactor in the Cleaning operation always with temporally constant flow too feed. To meet this requirement, can be advantageous a buffer tank upstream or as a plant component to be created with. Is for a process one longer term increase in volume throughput required, so the delivery rate can be slow, taking into account the minimization of the Feststoffaustrags be increased.

A purge operation of the reactor is recommended when the reactor is added by solids when the pressure drop across the Reactor becomes too high for the pumping capacity of the pumps and if the degradation rate due to transport limitations in the reactor decreases. An undesirable business interruption by a necessary rinsing can, however, be prevented by on the specific problem-adapted prophylactic Rinses are performed. For the flushing proves a pulsed operation with pressure fluctuations is very effective.

The process according to the invention can, if necessary, be carried out with large impurities and / or high solids content in the reactor inlet be improved by the fact that the reactor downstream of a separation stage becomes. The separation stage may be separators acting in, with or without the addition of excipients Taking advantage of the differences in density a separation of solids achieved, or it may be a filter in which by a certain mesh size, a separation of the solids is reached.

The solids loading at the reactor inlet should be according to the invention less than 500 milliliters for a settling time of 30 minutes Mud volume per liter of water phase amount. Preferred is the sludge volume at the reactor inlet at the said settling time less than 50 milliliters per liter of water phase. Most notably Preferably, the sludge volume at the reactor inlet at the said settling time less than 5 milliliters per liter of water phase.

To reduce the solids load at the reactor inlet, can be preceded by a separation stage. In this separation stage can a mechanical separation by settling or flotation with or act without the addition of release agents.

A temperature and pH adjustment for the inventive Procedure only takes place if it is economical.  

The invention will be described below by way of example with reference to three schematic drawings and explained by embodiments.

Fig. 1 shows a block diagram of a process management, as it could be used, for example, for the decomposition of organic impurities from the sequence of a grease trap. Fig. 2 shows a block diagram with a downstream separation stage. Fig. 3 shows a block diagram with another downstream separation stage.

In a system constructed according to FIG. 1 of the drawing, the aqueous medium loaded with organic impurities is pumped with approximately constant volume flow from a buffer tank 1 into the line section 2 . At the line points a, b, c are the aqueous medium sequentially enzyme over the dosing consisting of reservoir 4 , dosing 5 , dosing pump 5 ' , fed, microorganisms over the metering consisting of reservoir 6 , metering 7 metering pump 7' , and oxygen in the form a liquid product over the metering section consisting of reservoir 8 , metering 9 , metering pump 9 ' . After the addition of the substances, the input of the reaction mixture takes place via the feed line 10 into the fixed-bed tubular reactor 3 . The purified aqueous phase leaves via the discharge line 11, the reactor.

FIG. 2 shows, as a separation stage, a separator 12 connected downstream of the fixed bed reactor 3 for the separation of the discharged solids. FIG. 3 shows, as a separation stage, a filter 13 downstream of the fixed bed reactor 3 for the separation of the discharged solids. Both separation systems can improve the process when there is a high level of organic contamination of the aqueous medium.

With a plant of the type described, it is possible to organic impurities in aqueous media with small Reaction volume, low sludge accumulation, high degree of degradation and great process stability.

With the method according to the invention achieved practical results are explained by the examples given below.

Example 1 Reduction of organic ingredients in a wastewater after mechanical pre-treatment

For many mechanical separators (light oil and gasoline separators, Separators for animal and vegetable fats and oils), which are operated in the FRG, because of the increased use  surface-active substances the required degree of separation is not reached. The water flowing out of the separators has indeed however, a small proportion of solids contains dissolved in excess organic substances. Here are methods sought, the cheap and with a small footprint remedy. pilot tests with the method according to the invention have confirmed that the process can do this.

Wastewater from a grease trap with a contaminant measured on the chemical oxygen demand (COD determination according to DEV H14) in the amount of 550 to 980 milligrams per liter, measured over the fats (DEV H17) amounting to 28 to 294 milligrams per liter, settleable substances (DEV H9) in the amount of 0.1 to 4 milliliters per Liter after 30 minutes settling time is at a pH with Variations between 5.6 and 7.05 according to the invention Treated procedures. For a stay in the reactor of approx. 20 minutes on average, a degradation of organic pollution of over 50% achieved. The average dosage of "DBC plus" dry bacteria type A was about 1 gram per kilogram of COD. The average dosage of the enzyme mixture Lipase preparation 7083 was about 0.250 grams per Kilograms of COD. The average dosage of the oxygenate SRI 20 was about 10 ppm. All substances mentioned were added to the wastewater prior to introduction into the fixed bed reactor. The fixed bed reactor was filled with "SIRAN" brand fillers, manufactured by the company Schott, Mainz, filled. A simple one Fixed bed reactor, the current state of the art and not operated by the method according to the invention is needed for the same average removal power about 120 minutes. This corresponds to a sixfold increase in the Reaction volume. The investment costs for the large reaction volume are very high compared to the cost of the biological / biochemical additives and dosing routes.

example 2 Reduction of organic matter in contaminated groundwater

The construction is worthwhile for the decontamination of groundwater streams a complex stationary water treatment usually not, because the treatment on the one hand temporally to months or limited to a few years, and second, the degree of contamination decreases steadily in the course of treatment and thus the first installed processing plant is oversized. This one described method can be operated in multiple stages in such cases be possible, whereby the plant parts can be made mobile. If some of the pollutants are broken down, you can not do it anymore remove required components from the construction site and for the Use renovation of other damage cases. Pilot experiments with a groundwater contaminated by methyl ethyl ketone have been performed. Here could by the use of the  Bacterial mixture type DBC plus type L-1 in the fixed bed reactor especially high degradation rates and a particularly good final mining value be achieved. Again, in the reactor, the packing with the term "SIRAN" used. The mining performance could compared to the normal fixed bed reactor to ten times Speed can be increased. The dosage for BDC plus Type L-1 was 0.5 grams per kilogram TOC (Total Organic Carbon).

Claims (25)

1. A process for the purification of water in a fixed bed reactor, characterized in that the aqueous media introduced into the reactor biological and / or biochemical substances are added in one of the amount and type of organic substances present in the aqueous media dosage amount. 2. The method according to claim 1, characterized in that as biological substances microorganisms, in particular high-performance ones specialized bacteria or mixtures of such Bacteria are added. 3. The method according to claim 1 and 2, characterized in that as microorganisms mixed cultures of dry bacteria with the "DBC plus" are added. 4. The method according to any one of claims 1 to 3, characterized that as biochemical substances enzymes and / or others Be added substances that reduce the organic pollution cause and / or the degradation of biological Support substances. 5. The method according to any one of claims 1 to 4, characterized that enzymes can be obtained from Röhm GmhH, Darmstadt, be added. 6. The method according to any one of claims 1 to 5, characterized that the amount of mixed cultures, based on the Amount of organic load is added to the water, for the "DBC plus" mixed cultures between 0 and 50 grams "DBC plus "dry bacteria mixture per kilogram of TOC (= total organic carbon), preferably between 0 and 5 Grams per kilogram of TOC, more preferably between 0 and 0.5 Grams per kilogram of TOC. 7. The method according to any one of claims 1 to 6, characterized that the amounts of enzyme or enzyme mixture with a specific activity of 1700 IU / g (international unit / Gram) between 0 and 250 grams of enzyme or enzyme mixture each Kg is TOC, preferably between 0 and 5 grams each Kilograms of TOC, more preferably between 0 and 0.5 grams each Kilogram TOC. 8. The method according to any one of claims 1 to 7, characterized that the reaction mixture additionally oxygen  is added, preferably in the form of dissolved oxygen or by fumigation with air or by fumigation with oxygen or by oxygen-rich chemical compounds. 9. The method according to any one of claims 1 to 8, characterized that the content of dissolved oxygen in the Reaction mixture between 0 and 2 milligrams per liter of water phase lies. 10. The method according to any one of claims 1 to 9, characterized that the addition of biological and / or biochemical Substances and / or oxygen in a reactor upstream system and / or in the supply line to the reactor and / or by means of a cross-flow reactor. 11. The method according to any one of claims 1 to 10, characterized that for the addition of biological and / or biochemical Substances and / or the oxygen a Dosierstrecke is provided. 12. The method according to claim 1 to 11, characterized in that the dosage of biological and / or biochemical substances and / or the oxygen continuously proportional to time he follows. 13. The method according to any one of claims 1 to 12, characterized that the dosage of biological and / or biochemical Substances and / or oxygen continuously proportional to the volume depending on the contamination. 14. The method according to one or more of claims 1 to 13, characterized in that the reactor is erected vertically and that it flows through from bottom to top. 15. The method according to one or more of claims 1 to 14, characterized in that the reactor with a maximum of ± 25% time-varying volumetric flow, preferably ± 15%, more preferably ± 5%, and is charged without pressure surges. 16. The method according to one or more of claims 1 to 15, characterized in that the reactor at time intervals from 24 hours to 12 months, preferably from 24 hours to 3 Months, more preferably from 24 hours to 1 month Rinsing once in the circulation, preferably pulsatile, operated with up to 10 times the volume flow, the Time for rinsing 1 to 120 minutes, preferably 5 to 60  Minutes, more preferably 10 to 30 minutes and the pulses 0 to 25 pulses per flush, preferably 3-5 pulses be made per flush. 17. The method according to one or more of claims 1 to 16, characterized in that the reactor is followed by a separation stage is. 18. The method according to one or more of claims 1 to 17, characterized in that upstream of the reactor, a separation stage is. 19. The method according to one or more of claims 1 to 18, characterized in that the operating temperature in the range from 0 to 100 degrees Celsius, preferably from 5 to 45 degrees Celsius, more preferably from 10 to 40 degrees Celsius. 20. The method according to one or more of claims 1 to 19, characterized in that the pH in the supply line and Reactor is 1 to 13, preferably 4 to 9, especially preferably 5.5 to 8.5. 21. The method according to one or more of claims 1 to 20, characterized in that the pH to one for the Response optimum value is set. 22. The method according to one or more of claims 1 to 21, characterized in that the reactor one or more Reactors downstream. 23. The method according to one or more of claims 1 to 22, characterized in that in the successive reactors biological / biochemical substances of different Type and / or composition are added. 24. The method according to one or more of claims 1 to 23, characterized in that as a filler material for the Reactors open-pore sintered glass is used. 25. Apparatus for carrying out the method according to one or several of claims 1 to 24, consisting of at least a fixed bed reactor and at least one metering device.