SU981257A1 - Process for treating active slit - Google Patents

Description

(5) METHOD FOR PROCESSING ACTIVE SILT

The invention relates to the treatment of sludge produced during the treatment of wastewater, and can be used to treat excess activated sludge from biological wastewater treatment.

A known method of treating activated sludge is by saturating it with air at a pressure of 0, MPa. The resulting mixture is sent to a flotation tank, where, when the pressure is released, air is released in the form of tiny bubbles that float sludge particles onto the surface j from which the layer of compacted sludge is raked and sent jj for further processing by known methods, mainly thermal | lj

The disadvantage of this method is the low efficiency of the process, at 20% of which the moisture content of the compacted sludge is at least 9b. Transfer of such sludge to further heat treatment leads to significant costs.

thermal and electrical energy, which increases the cost of the whole method.

The closest in technical essence to the present invention is a method of treating activated sludge, carried out as follows: activated sludge is mixed with a working fluid, i.e., treated wastewater, previously saturated with air under pressure of 0 | 3-0,5 MPa, the resulting mixture section- At atmospheric pressure, sludge water and compacted sludge are collected, the latter is raked and sent for heat treatment, after which the treated sludge is separated into dehydrated sludge and filtrate G21.

The disadvantage of this method is low compaction efficiency, i.e., high compaction moisture of sludge (9b - 9b, 6%) and its large volume (I, 5-1 from the original).

The aim of the invention is to increase the efficiency of compaction. This goal is achieved by the fact that according to the method of treating activated sludge, which includes mixing active sludge with a working fluid, under pressure with air, subsequent separation of the mixture at atmospheric pressure into sludge water and compacted sludge, heat treatment of compacted sludge followed by separation into dehydrated sludge and the filtrate, as the working fluid using the filtrate obtained by heat treatment of compacted activated sludge. Active sludge is mixed with the working fluid in the ratio of 1: (2-3). The method is carried out as follows. Excess activated sludge is fed to the flotation cell, where it is mixed with the working fluid in a ratio of 1: (23) by volume. This working fluid is a filtrate obtained by heat treatment of already compacted Sludge and saturated with air under an excess pressure of 0.3-0.5 MPa. In the flotation cell, when the pressure drops to atmospheric pressure, an intensive separation of the mixture and compaction of the silo occurs. Compacted sludge is scooped from the surface of the flotation cell and subjected to heat treatment at 170200 ° C, after which it is separated into dehydrated sludge and filtrate, which is used as a working fluid. The moisture content of compacted sludge is 93-9 and its volume is 810 of the original volume. This effect is achieved due to the fact that during heat treatment of activated sludge, the protein of the solid phase of sludge decomposes and passes into the liquid phase, the filtrate. The saturation of such a filtrate with air under pressure, and then a rapid decrease in pressure to atmospheric pressure leads to the release of a thick, stable foam from the filtrate, which does not break down in

The ratio of the volume of activated sludge and working fluid

Humidity compacted sludge, in

1: 2

1: 2 1: 3. 3 9 93 96.6 96 for several hours. Foam adsorbs particles of activated sludge and floats on the surface of the flotation cell. Data indicating the advantage of the proposed method in comparison with the known, are given in the table. Example. 2l of excess activated sludge from the Lyubertsy aeration station of Moscow with EE humidity,% mixed in the chamber of the laboratory flotation cell with l of filtrate obtained after thermal treatment of compacted activated sludge saturated with air under a pressure of 0.4 MPa. The resulting mixture is separated at atmospheric pressure, after 1 h, the compacted sludge is discharged into a collection tray and subjected to heat treatment at, then separated into dried sludge and the filtrate. Humidity compacted sludge 9, its volume is 197 ml or 9.9 from the original. Suspended solids content in sludge water is 30 mg / l. EXAMPLE 2. The process is carried out analogously to example 1, but the amount of filtrate is 6 liters. Humidity compacted sludge 93 th volume 168 ml or 8, if from the original. Suspended solids content in sludge water is 30 mg / l. The advantages of the proposed method in comparison with the known one are in increasing the efficiency of compaction due to a decrease in the moisture content of compacted activated sludge by a 2-3 times decrease in the volume of compacted by 1.7 times, a decrease in the content of suspended substances in sludge water by 1.7-2 times. In addition, the additional advantages of the proposed method in comparison with the known one are in increasing the productivity of the dewatering equipment by 1.5 ra for the subsequent mechanical dewatering of the compacted activated sludge.

Claims (2)

Suspended matter content Formula 1: A method for treating activated sludge, including mixing it with a working fluid saturated with overpressure with air, subsequent separation of the mixture at atmospheric pressure into sludge water and compacted sludge, heat treatment of compacted sludge, followed by separation into dehumidified sludge and filtrate , characterized in that, in order to increase the efficiency of compaction, the filtrate obtained by heat treatment of compacted activated sludge is used as a working fluid . 2. The method according to claim 1, distinguishing between and and with: the fact that the activated sludge is mixed with the working fluid in a ratio) i Sources of information taken into account during the examination. 1, Promising methods of sewage sludge treatment. Compaction, conditioning, mechanical ofeaeozhivanie. TsINIS Gosstro USSR; M., 1975, p. 7-23. 2. Matsnev A.I. Wastewater treatment by flotation. Kiev, Budivelnik, 1976, p. 86