DE3826147A1 - Process for treating waste water - Google Patents

Abstract

The waste water (effluent) is passed through a biological treatment zone from which excess activated sludge is taken off which contains phosphorus. The activated sludge is thickened under aerobic conditions and then subjected to digestion. From at least a part of the digestion product, phosphorus compounds are removed by precipitation.

Description

The invention relates to a method for clarifying Wastewater with phosphate removal, taking the wastewater through a biological treatment zone, from which you remove excess activated sludge.

Phosphate removal from wastewater on biological Path often fails due to the conventional Sludge treatment. It has been shown that under anaerobic conditions in the sludge tower or in the static thickening and subsequent drainage phosphate is increasingly redissolved. The phosphate occurs thereby out with the liquid phase and passes over the wastewater in the receiving water.

The invention is based, phosphate from the task excess activated sludge that comes from the biological Treatment zone deducts in an effective manner remove. This works with the method mentioned at the beginning according to the invention in that from the biological Treatment zone a phosphorus-containing activated sludge deducts and thickened under aerobic conditions that one subjecting the thickened activated sludge to digestion and that from at least part of the digestion product Phosphorus compounds removed by precipitation. Here is it is particularly important that the phosphorus-containing activated sludge is kept in strictly aerobic conditions until it is in thickened form of anaerobic treatment by digestion is subjected.  

Most of the digestion goes Phosphorus compounds in the digestion water, from which then fix the phosphate by adding chemicals and in insoluble form is separated. Further Phosphorus compounds are removed with the digested sludge.

To optimize the process, it is advisable to: the biological treatment zone the development of Promote phosphorus-storing bacteria. This is it useful if the activated sludge plant, regardless of whether they nitrified nitrogen or not, an anaerobic Basin is upstream, in which fermentation processes play. In such a fermentation zone he gives this Adapted activated sludge initially adapted almost all phosphorus from, so that a phosphate-rich waste water is produced. In the adjoining ventilated and aerobic zone The activated sludge then again binds phosphorus very much intensive. This creates a high phosphorus content Sludge, the removal of which makes phosphorus effective can eliminate. Provide literature on this e.g. the "Publications of the Institute for Urban Development of the Technical University of Braunschweig ", Issue 42, on the subject "Biological nitrogen and phosphorus elimination in Wastewater treatment plants ", March further training seminar 1987 (ISSN 0341-5805). Furthermore, Krauth, Maier, Kainrath on "Opportunities for biological Phosphorus Elimination in Existing Aeration Systems " a symposium of Hoechst AG in Frankfurt / Neu-Isenburg on November 28, 1986.

In the method according to the invention, it is recommended that activated sludge containing phosphorus to a solids content  from 3 to 20% by weight. Here you keep how already mentioned, aerobic conditions. Conveniently the activated sludge is therefore quickly thickened so that Phosphate does not pass into the water. Such rapid thickening can e.g. through a centrifuge or by relaxation flotation.

Due to the digestion, the phosphorus compounds go to predominantly in the foul water. The Phosphate precipitation can now be carried out as a whole Digestion product or in the previously separated digestion water make. The digested sludge is expediently separated from the foul water and then phosphate falls out of the Foul water out, reducing consumption Precipitation chemicals is reduced. The separation of the Digested sludge from the digested product is preferred in a working with moving parts Drainage device, e.g. a centrifuge, by. Static thickening is less at this point suitable.

It is common for wastewater to be removed from the biological treatment zone by preliminary clarification Mud-water mixture and from the mixture the mud (Primary sludge) separates. You give this primary sludge then together with the thickened activated sludge Rotting up. The separation of the primary sludge from the Sludge-water mixture is preferably carried out separately from the Thickening of the activated sludge containing phosphorus as a Mixing of the two types of sludge to redissolve Phosphate can lead.  

Further details of the method according to the invention are explained with the help of the drawing.

Waste water containing phosphate, for example municipal or industrial wastewater, is introduced in line ( 1 ) and initially sent to a preliminary clarifier ( 2 ). Sludge is drawn off in line ( 3 ) and passed on to a thickener ( 4 ). The thickened sludge, which is referred to below as primary sludge, is conveyed to line ( 5 ) for further treatment.

Pre-clarified waste water containing phosphate comes from line ( 7 ) and is fed together with the waste water from line ( 8 ) through the collecting line ( 9 ) to a biological treatment zone ( 10 ). Clarified wastewater leaves the plant through line ( 11 ).

The biological treatment zone ( 10 ), which is only shown very schematically, can be designed in a known manner, for example in four stages, stage ( A ) being an anaerobic treatment area. This is followed by a denitrification stage ( B ) and an aerated nitrification stage ( C ). A clarification ( D ) follows. There is a circuit between stages ( C ) and ( B ), which has been omitted in the drawing for simplicity.

Excess activated sludge is drawn off in the line ( 15 ) from the aerated nitrification stage ( C ) and subjected to rapid thickening under aerobic conditions in a centrifuge ( 16 ). While it is possible to achieve a phosphorus content in the dry matter of up to about 5% by weight in the activated sludge of line ( 15 ), the clarified waste water from line ( 11 ) has phosphate with less than 2 and preferably less than 1 mg phosphorus per liter .

From the centrifuge ( 16 ) comes thickened activated sludge in line ( 17 ) and water in line ( 18 ). The water is given together with the waste water from line ( 12 ) from thickener ( 4 ) via line ( 8 ) back to the biological treatment zone ( 10 ). The activated sludge of line ( 17 ) is passed together with the primary sludge of line ( 5 ) through a heat exchanger ( 19 ) and heated there to temperatures of approximately 30 to 38 ° C. The mixed sludge having a solids content of usually 3 to 20 wt .-%, then passes through the conduit (20) in a per se known digester (21) in which under anaerobic conditions, residence times of from about 30 to 70 days at temperatures of 30 to 38 ° C can be set. Digester gases leave the digestion tower ( 21 ) through line ( 23 ) and are partly returned to the lower area of the tower ( 21 ) via a filter ( 24 ) and a circuit line ( 25 ) with compressor ( 26 ). The digester gases circulated in the tower ( 21 ) circulate the sludge-water mixture according to the mammoth pump principle. About half of the organic solids added are removed in the digester. Due to the sludge digestion in the tower ( 21 ), the majority of the phosphorus compounds pass into the digestion water.

It is advisable to first separate the digestion product drawn off from the digestion tower ( 21 ) in the line ( 28 ) into digestion sludge and digestion water, for example in a centrifuge ( 30 ). Digested sludge with a relatively low proportion of phosphorus compounds is drawn off in line ( 31 ) and leads it, for example, to a landfill. The digestion water, which contains the majority of the phosphorus compounds, in particular as phosphate, passes in line ( 32 ) to a stirred tank ( 33 ), to which chemicals for precipitating the phosphorus compounds are fed through line ( 34 ). Lime hydrate (Ca (OH) ₂ ) is recommended to precipitate the phosphate. The mixture of fermentation water and precipitation products passes through line ( 35 ) to a settling tank ( 36 ), from which water-containing solids are drawn off through line ( 37 ) and fed to a dewatering device ( 38 ), for example a filter press or centrifuge. Phosphorus-containing solids are drawn off in line ( 39 ) and the resulting, largely solids-free liquids are led through lines ( 40 ) and ( 41 ) and via line ( 8 ) back to the biological treatment zone ( 10 ).

Deviating from the procedure shown in the drawing, it is also possible to dispense with the centrifuge ( 30 ) and to subject the entire digestion product to phosphate precipitation. However, increased chemical consumption must be expected, since the digested sludge itself binds precipitation chemicals. A further process variant consists in that the precipitation is not carried out in one stage but, for example, in two stages and is precipitated on the one hand by adding iron salts and on the other hand with Ca (OH) ₂ .

The method according to the invention does not result in any significant salting of the treated wastewater, too the amount of sludge to be dumped only slightly increased.  

example

In a municipal wastewater treatment plant for 68,000 inhabitants, in a procedure corresponding to the drawing worked. Obtain all quantities listed below on one day.

19,000 m ^{3 of} wastewater are introduced in line ( 1 ), the wastewater contains 3400 kg of BOD ₅ , 170 kg of phosphorus and 1045 kg of nitrogen. 3060 kg of activated sludge solids flow through line ( 15 ) and 3040 kg of primary sludge solids flow through line ( 5 ). The dwell time in the digester ( 21 ) is 50 days. 58 m ^{3 of} digested water are drawn off from the centrifuge ( 30 ) through line ( 32 ) and mixed with 500 kg of hydrated lime.

The phosphorus content in different lines is the following:

Solids concentrations (F) in different lines are the following:

13 m ^{3 of} digested sludge from line ( 31 ) and 3 m ^{3 of} sludge from line ( 39 ), which contains 620 kg of precipitation products, go to the landfill.

Claims (8)

1. A process for the purification of waste water with phosphate removal, the waste water being passed through a biological treatment zone from which excess activated sludge is drawn off, characterized in that a phosphorus-containing activated sludge is withdrawn from the biological treatment zone and thickened under aerobic conditions so that the thickened one is removed Activated sludge undergoes digestion and that phosphorus compounds are removed from at least part of the digestion product by precipitation. 2. The method according to claim 1, characterized in that you put the phosphorus-containing activated sludge on one Solids content in the range from 3 to 20% by weight thickened. 3. The method according to claim 2, characterized in that the activated sludge in a centrifuge or through Relaxation flotation thickens. 4. The method according to claim 1 or one of the following, characterized in that the digestion product in Digested water and digested sludge separate and from the Digestion water phosphorus compounds fails.   5. The method according to claim 1 or one of the following, characterized in that one from the wastewater before the biological treatment zone by preliminary clarification Mud-water mixture and from the mixture the mud (Primary sludge) and that the primary sludge together with the thickened activated sludge of the Undergoes rotting. 6. The method according to claim 5, characterized in that the digestion is a mixture of activated sludge and Primary sludge with a solids content in the range of Gives up 3 to 20 wt .-%. 7. The method according to claim 1 or one of the following, characterized in that one is in the rotting Residence times from 30 to 70 days and temperatures from maintains about 30 to 38 ° C. 8. The method according to claim 4, characterized in that the digestion product in one with moving parts working drainage device in digested sludge and septic water separates.