DE4111706C2 - Process for the purification of municipal and industrial wastewater as well as landfill leachate - Google Patents

Description

The invention relates to a method for cleaning municipal and industrial waste water as well as landfill leachate the features of the preamble of claim 1.

Known cleaning systems generally prepare the wastewater in numerous cleaning stages. At every stage is through additional biological or chemical-physical processes Mud formed.

Overall, the amount of solid to be disposed of is in the course of Treatment levels several times larger than the solid quantity at the inlet to the different treatment stages (e.g. behind the sand trap). The process in the receiving water is cloudy. A Reuse of the purified water is difficult or difficult becomes impossible. Can close to receiving water inlets Water for bathing purposes because of the high organic residue and not used for hygienic reasons. In addition, the investment costs of these well-known Reini systems due to the large number of cleaning stages for Pool construction and sludge treatment unnecessarily high.

From the older, not prepublished DE 40 13 375 A1 a method of removing dissolved and ent in Suspensa holding phosphorus from a treated and at least partially se clarified, low-solids wastewater known, in which the  Low-solids wastewater Precipitation and flocculants lead the dissolved phosphorus in undissolved form and Precipitation products and suspensa by microscreening with mesh wide in the range of about 10 to 150 microns away. This be Known method uses only microsieves with a Ma width that cannot be assigned to the microfiltration area is. The microfiltration range today ranges from around 1 µ to 10 µ. Such mesh-based microsieves also have the Disadvantage that blockages are not safely avoided and also cannot be regenerated.

The same applies to wastewater treatment using microsieving, Scherb, K., based on "Munich contributions to wastewater, fishing and river biology "; Vol. 38, 1984, pp. 253-266.

DE 37 40 211 A1 describes a process for reprocessing treatment of contaminated alkaline slide grinding water from Slide grinding systems known. The dirty slide grinding wheels water are preferably after mechanical pre-cleaning in Circuit with a pressure of preferably 1.4 bar and with an average operating temperature of preferably 30 to 35 ° C and a compound abrasive content of preferred wise 2% passed through a microfilter system, the filter membranes have a nominal pore size of 0.2 µm. Doing so periodically in shorter intervals of 2.5 to 5 minutes without Interruption of the filter circuit, a blast of compressed air of approximately 3 bar in the opposite direction to the filtrate flow into the filtrate line given, and also periodically at intervals of about 1.5 up to 2 hours interrupting the actual Filtering process cleaned by the microfilter system Surface grinding water as a rinsing liquid in the opposite direction to pumped through the usual filtrate stream. As filter membranes are made of polypropylene with a membrane area of 1 square meter used. The filter performance and the regenerability sol planar filter membranes is limited.  

From Ref. From Chem. Abstracts, Ref. No. 99: 58700p, Vol. 99, 1983, a process for the production of drinking water is known, where the raw water is treated with a flocculant and through a fine sieve and then through a sand filter is filtered. Treatment with Ultrafil then follows tration or by reverse osmosis. This known method the goal is to extend the life of the membrane.

US 4,313,830-A describes a method for increasing the Filtrate flow by adding sulfuric acid and calcium hydroxide. US 4 670 150-A is concerned with a reactor Procedure in which implementations within a partially closed module. This known method is suitable to be used for process water for the purpose of use must be softened.

Microfiltration treatment stages with tubular, from one Wire wound microfiltration membranes with adjustable Winding distances are known from DE 37 41 952 C2. This was not so far for cleaning wastewater suspensions used.

The invention has for its object a method for Treatment of municipal and industrial waste water as well as of depo never specify leachate where the number of treatment levels reduced and the filter performance and regeneration possible is improved.

The invention solves this problem with the features of the patent claim 1.

It has been found that e.g. B. municipal wastewater to be cleaned only relatively low solids when draining from the sand trap shares. The bacterial development is not yet far advanced. Because the wastewater to be cleaned fed to a microfiltration treatment stage and in this  blank filtered, there is only a small total Mud attack. The one in the microfiltration treatment stage used metal and tubular filter membrane yields a high Filter performance and allows full regeneration. The booth time of such filters is therefore considerable.

According to one embodiment of the invention, aids can be made from finely powdered coal, coking coal or activated carbon, ionic exchangers, precipitants / flocculants, sieve material in the form of Diatomaceous earth, quartz powder and bentonites and flotation substances There are surfactants.

So not only the coarse in the microfiltration stage disperse and colloidally disperse visible substances, but also the solutions to be eliminated in accordance with the statutory provisions most substances are filtered out.

With an appropriate choice of added filter aids aftertreatment from the microfiltration stage permeating in an elimination basin the.

The permeate emerging from the microfiltration system is bright filtered and contains no impermissible for direct dischargers substances above the permissible limit values more. It can reused for the aforementioned purposes in the recycling process be evaluated.  

Further refinements of the invention result from the Subclaims.

The invention is illustrated by one in the drawing Embodiment explained in more detail. The drawing shows:

Figure 1 is a schematic view of a cleaning system according to the invention.

Figure 2 is a schematic view of a modified cleaning system according to the invention.

Fig. 3 is a partial vertical section through a microfiltration module and

Fig. 4 shows a partial section thereof.

The waste water to be cleaned is fed to a cleaning system 1 in the direction indicated by the arrow in FIG . This cleaning system 1 has at the entrance a calculator 2 with a sand trap 3rd A feed template 4 is then provided. In or after this, finely powdered coal or activated carbon and other separation aids are metered in via the template 6 . Between feed template 4 and microfiltration treatment stage 7 , the concentration of the feed to the thick liquid of the retentate is then carried out in the cross-flow cycle method, which is then fed to the sludge treatment 5 (for example for further dewatering and soil improvement). After the sludge removal, the feed template 4 is refilled with suspension from the sand trap 3 . The process runs alternately between feed template 4 and microfiltration treatment stage 7 .

Coal dust is preferably used as a filter aid, Adsorbents, precipitants and flocculants, ion exchangers and flotation agents used.  

The permeate formed in the microfiltration stage is introduced into the receiving water or (e.g. in the case of salts to be eliminated in landfill leachate) is freed from the dissolved substances via a reverse osmosis stage 8 , which cannot be eliminated by microfiltration with separation aids. The retentate from the microfiltration stage - as long as there were no toxic substances in the wastewater or were eliminated from it - e.g. B. be used in landscaping.

In cases where toxic components in the Microfiltration stage have been eliminated (e.g. from landfill Leachate or industrial sewage) and consequently toxic substances are in the retentate, the sludge is with Cement (e.g. to concrete) solidified and on suitable Landfills deposited or decommissioned for sealing Landfill areas used. If necessary, the Surface of the concrete parts additionally hermetic or "breathing" be sealed (e.g. with glass or polymer coatings).

In the modified cleaning system 1 shown in FIG. 2 with an arithmetic unit 2 , the wastewater to be cleaned is fed in again in the direction indicated by the arrow. A sand trap 3 is arranged downstream of the arithmetic unit 2 . A feed template 4 is then provided again. Separation aids are metered into these via a metering device 10 and mixed with a stirrer 11 . The feed template 4 contains chamber areas 12 in which the mixed with separation aids Sus pension can only penetrate after a time delay, so that sufficient time z. B. for loading adsorbents with adsorpt, for ion exchange or the action of precipitants and flocculants remains. The suspension is pumped out of the chamber areas 12 into the microfiltration treatment stage 7 by means of a pump 13 .

According to FIG. 3, the microfiltration treatment stage 7 , which is used both in the embodiments according to FIG. 1 and according to FIG. 2, contains at least one microfiltration membrane provided in a closed housing 15 with feed inlet 16 , retentate outlet 17 , permeate outlet 18 and backwash inlet 19 20th A wire 21 is preferably used for this microfiltration membrane 20 . The adjacent wire windings 22 form pores between them due to the unavoidable unevenness. The height of the microfiltration membrane 20 can be adjusted in a manner not shown. The microfiltration membrane 20 then produces adjustable pore sizes from 0.1 to 100.0 μm. The filtering can be done either in cross flow or dead-end, with backwashing at different pressures (up to the high pressure range).

In the tubular microfiltration membranes 20 , a covering layer is built up from the suspension mixed with separation aids at the beginning of the filtration process, which in turn has a filtering effect and permits a pore size setting that goes far beyond the particle sizes of the components to be separated. The pump operation at the inlet 16 of the microfiltration treatment stage 7 is maintained until the permeate output falls back to a limit value to be determined (e.g. to 70% of the initial output). From the backwash inlet 19 , when the permeate outlet 18 and feed inlet 16 are closed, a backwash pulse is then exerted with compressed air, through which this microfiltration membrane 20 of the microfiltration treatment stage 7 is flushed out by lifting the cover layer. The cover layer material thus dissolved is blown out as retentate in concentrated form (with at least 10% solids content) via the retentate outlet 17 .

As soon as the backwashing and blowing-out process has ended, the rewinding inlet 19 and retentate outlet 17 are closed again, feed inlet 16 and permeate outlet 18 are opened so that the filtration process can begin again.

As separation aids are preferably inexpensive  Bulk products used that are a profitable practice enable. In particular, adsorbents pay off for this Coking coal, ion exchanger made of three-layer silicates, Precipitant from lime or iron compounds, flotation agents from tensides and - for non-adsorptive binders Fine and colloidal dispersed components - diatomaceous earth, Quartz flour, bentonite and other binders.

The sludge blown out of the retentive outlet 17 of the microfiltration treatment stage 7 , provided that it is not e.g. B. is bound and sealed by cement, glass, polymers, etc., passed into a settling tank in which further compaction takes place by settling, or it is passed into a filter press in which it is mechanically compacted further. In both cases, the purified supernatant or the permeate from the filter press, such as the permeate from the microfiltration treatment stage and the sludge, are recycled in the recycling process or - if necessary - fed back into the filtrate cycle. This also applies to the retentate, which in some cases can be used again as a separation aid in wet or dried form.

Claims (2)

1. A process for cleaning municipal and industrial wastewater and landfill leachate, in which the wastewater to be cleaned is passed through a cleaning system with several treatment stages and bare filtered using a microfiltration treatment stage ( 7 ) and before entering the microfiltration Treatment stage ( 7 ) aids for eliminating or converting undesirable substances are metered in, characterized in that tubular, microfiltration membranes ( 20 ) with adjustable winding spacings are used for the microfiltration treatment stage ( 7 ). 2. The method according to claim 1, characterized, that the auxiliaries from finely powdered coal, coking coal or activated carbon, ion exchangers, precipitation / flocculation , sieve material in the form of diatomaceous earth, quartz powder and Bentonites and flotation substances consist of tensides.