DE2311749A1 - METHOD AND DEVICE FOR TREATMENT OF ACTIVATED SLUDGE - Google Patents

Description

Method and device for treating activated sludge

The invention relates to an improved method and a Device for treating activated sludge which is broken down in an activated sludge process. The activated sludge process Is and is known in wastewater treatment technology widely used mainly as a secondary treatment. at Such known methods are produced by the treatment systems return sludge and the bacteria are preserved. This means that the activated sludge increases and in order to keep the system in equilibrium, the same amount must be used Sludge as it grows back in the system, removed and broken down. When this excess Iammes is reduced, In the sewage treatment plants various problems and in particular relatively high operating costs, the excess sludge requires a cost-

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playful equipment, high expenditure for space requirements and causes environmental problems, although the plants themselves are the Serve environmental improvement. It occurs when the operation is poor bad smell and sanitary problems arise again and again.

There is a facility for treating activated sludge with the removal of excess sludge at periodic intervals and filling into a digester in which air is supplied. However, this only happens at a rate of around 1/2 to 1 part per million dissolved oxygen. As a result, the digesters or ventilation systems known to date still leave around 65 to 70 % digestible suspended matter in the excess sludge. In addition, these digestors consist of fairly large stretchers, even in small systems, with the resulting high capital expenditure and the large amount of space required. After digestion, the excess sludge, which has a high affinity for water, has to be dewatered. Devices such as sedimentation beds are usually used for drainage. In view of the high quantities of putrid suspended matter that remain in the excess sludge, a large-scale bed must be used in the sewage treatment plant, with the associated high costs, at least for the property. In addition, the undigested suspended matter creates a bad smell and attracts insects. These problems persist in wastewater technology, even if emphasis is currently placed on technical improvements through the fact that over half the cost of an activated sludge treatment plant is incurred by the treatment and removal of the excess activated sludge.

The invention solves many problems that currently exist in the treatment technology of excess activated sludge. Sia solves these problems by reducing putrid suspended solids by around 85 to 9 ^C > % and reducing the need for chemicals

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Oxygen in about the same amount, creating a sludge, which is easy to drain. The inventive Apparatus is smaller than a tenth of a conventional apparatus for treating the same amount of activated sludge.

A quick and almost complete digestion of the activated sludge is achieved through the introduction of sufficient oxygen shark acc Gas, for example air, in the activated sludge to be treated reached, and the solution is with oxygen Obei- satiated. Depending on the temperature, dl · · 6 to 12 parts per million dissolved oxygen. This snow According to the invention, the digestion takes place in a ring line, In which a ventilation tank is included. In these·" the sludge is held for a suitable 7'it during the oxidation treatment. The sludge can be in this treatment line circulate continuously, and treated sludge can, for example, settle in a secondary clarifier or settling tank drop. The settled sludge is periodically removed by blowing through the basin.

The device according to the invention has a device for Supply of air into the handling line by introducing it or by building up a positive pressure, furthermore a ventilation tank with a device for venting air » a secondary clarifier or a series of basins or parallel basins connected to the aeration basin and a Device for circulating the treated activated sludge through the handling line and connecting lines

Further details, features and advantages result from the following description of graphically illustrated Exemplary embodiments of the invention.

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- 4 It show:

FIg. 1 is a schematic diagrammatic representation of the Flow through the new device, which is used for the method according to the invention, and

Flg. 2 is a schematic diagrammatic representation of the Flow through a modified device.

According to Flg. 1, a flow diagram through an embodiment of the new device, a feed line 10 leads into an inlet basin 12. It is the sludge to be treated that flows through this line into the basin 12, a pump 14 draws the sludge to be treated from the basin 12 via a line 16, this process by means of a valve 18 can be controlled and directs it through a line 20 with a valve 22 into a handling line 24.

The handling line is designed in the form of a ring line, through which the sludge to be treated circulates and in which it oxidizes as quickly and completely as possible. In this handling line 24 is inserted into a pump 26, and Via a line 28 with a valve 30 there is a connection to an air flow device 32 to which an aeration basin 34 is connected. A gas containing oxygen for example atmospheric air, is drawn through an intake port 36 sucked in and led to a supply line, which is below a Vereiη Igungs- or VenturistelIe in the air inlet tungsvörri rect 32 is to air for the oxidation of the To be added to the sludge and especially for the oxidation of the volatile components and the digestible contained therein Fabrics.

The cycle closes in an aeration basin 34 from which activated sludge through a return line 38 with valves 40 and 42 is returned to the suction side of the pump 26.

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The aeration basin 34 is a simple basin or a Tank with no internal fittings, fixtures or strainers, and it has a capacity which corresponds to the desired residence time in which the activated sludge is completely saturated with oxygen should be appropriate. A minimum dwell time is preferred chosen from about 30 minutes.

The Luftmonge that the air induction device 32 either supplied without pressure or pumped in via a compressed air source is sufficient to create a solution saturated with dissolved oxygen in the aeration tank. This solved Oxygen varies between 6 to 12 parts per million depending on the solution temperature. Oas Be I Uftungsbekken is closed and is therefore better known as a ventilation tank. It has a trigger 44 with a valve and a pressure cell 48. The pressure in the ventilation tank br is only able to be built up to the extent that the liquid can be transferred to other basins or tanks, for example in secondary clarifiers or to transfer settling tanks. The vent line 44 is used to vent excess air or oxygen that is in the System initiated «" which was pumped in.

The oxidized solution of the excess activated sludge is of Bottom of the aeration tank through an outlet I on line 50 with a valve 52 in secondary clarifier 58 and 60 withdrawn, wherein Valves 54 and 56 take control.

In the area of the upper level of the liquid contained therein, the secondary clarifier 58 has a skim channel or “inner skimmer” C on to the relatively clear liquid through a pipe 64 to be able to deduct. After opening a valve 66, this liquid can be drained off. If desired, can the liquid flowing out of the basin 58 is also in a Second Nachk I work 60 via a valve 70 closable Drained line, in which case the after-

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-Q-

Clarifier I 56 arranged in series with the valve closed would be.

The clarifier 60 has a partition 72 and a skimmer 74 is located on each side of this wall or in the area of the liquid level in order to draw off liquid via lines 78 and ' ¹ ' 80. The oxidized solids of the activated sludge will settle on the bottom of the secondary clarifier and must be removed from time to time, for example by periodically operating blow-off devices. Each secondary clarifier 58, f is therefore each equipped with a blow-off device with a Fig. and 86 and a blow-off valve 84 and 88, respectively.

When carrying out the new method in a according to Flg. the device shown flows the incoming sludge, whose affinity for water is very high, into the inlet basin 12 and is fed to the handling line 24 by the pump 14. The pump 26 pumps the sludge back through the treatment line. The air introduction device 32 leads sufficiently Air in the sludge dissolved with water to create a solution supersaturated with dissolved oxygen and this in turn, causes rapid oxidation of the precipitates and largely reduces the need for chemical oxygen.

The aeration tank 34 is designed for a dwell time of at least 30 minutes and the air ducting device 32 is designed so that it ducts at least enough air for the supersaturation of the solution depending on the solids content. ₍

The activated sludge (due to the low Pressure in the aeration tank) in the secondary clarifier 58 and 60 transferred, which are either connected in series or connected in parallel at will. As a Iternatiν solution, the.

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Secondary clarifier arranged lower than the aeration basin and the overpass could be done with the help of gravity take place. In this case the ventilation tank was needed not to be under pressure and could be used as an open ventilation basin be formed.

The settled solids, the accumulated, no longer come from putrid material, e.g. periodically removed from settling basins 58 and 60 by valves 84 and controlled blowdown. These blow-off cycles can either be controlled by 'timers' automatically or by sensing the outflow and blowing off when the level is up of solids exceeds a certain amount.

example

A bet for the invention is given below, without wishing to restrict the invention to this example. The information relates to a practical test on a small sewage treatment plant with activated sludge treatment, which has proven itself. The plant processed per day, about l _f 5.10 I (400,000 gallons) wastewater and produced approximately 360 kg (800 pd) precipitation sludge solids, which should be eliminated by a suitable separation program from each approximately 94,500 I (25,000 gallons). This elimination program involved draining the excess activated sludge into a digester and then drying the sludge in Stcker drying beds. The present process, employing a small apparatus shown in FIG. 1, consists of an aeration tank having a capacity of about 230 liters (OJ gallons) operating at a rate of 7.5 liters (2 gallons) per minute an excess activated sludge in solution and a Verwailzeit of 30 minutes. Total Dissolved Solids Digestion (TSS), Volatile Dissolved Solids (VSS), Chemical Oxygen Demand (COD) and Digestion resulted in the following results

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a biochemical oxygen consumption (BOD) at different Data:

TSS / inf TSS / eff % red VSS / inf VSS / eff Irishman 800 98 88 540 78 86 1700 130 92 1400 106 92 1500 182 87 1200 146 87 1400. 1 14. 91 1 1 00 76 9 3 1500 88 94 1200 76 93 1300 122 90 1 100 98 91

COD / inf CC'D / ef f ired BOD / inf BOD / eff % red 1 128 '128 89 2407 173 93 2510 192 92 2038 312 84 2534 208 92 545
5 39. 75
114 86
78

in Fig. 2 a modified device is shown. the Individual parts are largely the same as in the execution of Fig. f and have the same reference numerals, but with a 1 in front of the respective reference numerals. According to FIG. 2, the incoming liquid is supplied by a pump 114 via a line 120 with a valve I 122 In a Treatment line 124 is pumped. The Eiη I on I βline to the pump has a chemical supply device Hl, which one of the commonly used chemicals, for example Alums in the "System_zug! B" t to the flocculation and failure to improve and give off a sludge that settles better.

The Behänd Iungsäeitung has a pump 126 to which

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Pressure soap connects a line 123 with a valve 130. An oxygen-free gas, for example air, is supplied from a prefilter 135 via a line 133 controlled by a valve 137. The nimbly IungsIeitung has a Be I U ftungstank 134 with a trigger 144 '· 146 nt with a V "is controllable. The liquid with the oxygenated sludge flows from the loading tank through outlet openings 145 and 147 into a pressure distribution secondary and settling tank 149 surrounding it concentrically. The upper edge of a tank wall 151 of the tank 49 serves as an overflow channel for the liquid, while the solids settle to the bottom and fall out through an opening 153 in the bottom of the tank 149 as a result of gravity.

A concentric outer clarifier 155 has in his Bottom level if there is an opening! '■' to set down and return or to blow off the settled solids. An overflow weir 159 and outlets 161 are in the fJachk Iär basin 155 provided to withdraw the liquid while refluxing of not yet digested sludge with putrid solids via the handling line 124 and via the valve 140 lockable pump suction line 138 is returned.

The blow-off takes place via a line 186 which is controlled by a valve 188. This can consist of a solenoid valve with timing, it may accordingly barren sampled suspended solids i _m piping or conduit are automatically controlled 161st

Although only two different embodiments as an example have been described, it is mug I ic, further amendments make within the scope of the invention.

Expectations

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Claims (14)

Expectations Process for the treatment of activated sludge in water for the removal of putrid components, characterized by the following stages: a) Introducing activated sludge into a treatment system with a handling line in the form of a closed loop with a dwell zone, b) continuous circulation of the activated sludge through the closed handling line and the dwell zone, When an acidic gas is injected into the closed Handling is sufficient Amount to saturate the sludge solution, d) Retention of the activated sludge in the residence zone for a period of time sufficient to support the UberT Saturation of the solution with the oxygen it contains To perform gas, e) Blowing off to remove neutral and not reducible material and f) Remove d ^nf effluent liquor. 2. The method according to claim 1, characterized β i c h η e r that that from the hand IunqsI βitung (24) removed material settles and is blown out of the system at the point of settling. 309838/0963 3. The method according to claims 1 and 2, characterized in that in the step of introducing of oxygen-containing gas with the help of a constriction (32) in the handling line (24) air into the System is sucked in. 4. The method according to claim 1 and 2, characterized in that in the step for Introducing oxygen-containing gas compressed air directly into the Behänd IungsIeItung (74) is directed. 5. Ver ^ 'iren according to claims 1 and 2, thereby It is possible to add chemicals to the treatment line (124) to improve flocculation and failure. 6. The method according to claims 1 and 2, characterized in that the Abblasstufe for the system is controlled automatically. 7. Device for the treatment of activated sludge in water for carrying out the method according to one or more of the preceding claims, characterized in that that a handling I ettung (24) with a Pump (26) and an aeration tank (34) in the treatment line (24) is provided, the pressure side of the pump (26) having an inlet in the ventilation tank (34) and an outlet in the aeration tank (34) with the suction side of the Pump (26) is connected, while a device for Feeding incoming activated sludge into the treatment line C24) and a device (32) for introducing Oxygen-based »Ga? Intended for handling (24) is and at least one sedimentation tank or secondary clarifier (58, 60) on the aeration tank (34) with a device (82, 86, 84, 88) for blowing off the floor 309838/0963 and means (62) for blowing off liquid from the secondary clarifier (58) is connected. 8. Apparatus according to claim 7, characterized in that the secondary clarifier (149) concentrically surrounds the aeration tank. 9. Apparatus according to claim 7 or 8, characterized indicates that a second clarification * basin (60) has a fluid communication path, the second secondary clarifier (60) with the aeration tank (34) and / or the first post-treatment basin (58) connects. 10. The device according to claim 9, characterized draws that the fluid communication path the two settling tanks (58, 60) either in series or in parallel with each other. 11. The device according to claim 9, d a d u. R c h g e k β π η shows that the two settling containers (149, 155) are arranged concentrically * 12. The device according to claim 7, characterized in that the device tufh EinIeI * th of oxygen ha 11iqem gas has a Luftteiη I eltungsvorrichtung Π2) in the handling IungsI line (24). 13. The device according to claim 7, characterized ge * < I denote that the device for introducing oxygen-containing gas is connected to the treatment line (24, 124) connected press IuftquefIe (135). - V 3 - 14. Vorrichtunq ^ em according to claim, characterized g e mark chnet that also a device for feeding chemicals (111) which improve flocculation and precipitation into the treatment line (124) is provided. 309838/0963 Blank page