SU42001A1 - Sewage sludge treatment method - Google Patents

Description

The present invention relates to the field of sewage sludge treatment by rebounding and its essence is that the sludge is compacted earlier; process it rotting. Said gel is achieved by introducing into the ordinary process an intermediate stage, namely acidic treatment of liquid sludge by exposing the sludge to septic bacteria in the interval between the final peg and the decomposer (methane cell).

Suspended particles, which very slowly precipitate in the settling tank, are compacted in a thickener to approximately one third of the original volume if they are under conditions of acid fermentation. Therefore, after straining, by overflowing from above, the solid particles are largely freed from excess liquid, which until now has created unfavorable conditions, consisting in an abundance of water, which overflows from the rotator and clutters the latter.

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In the practice of commonly used facilities, activated sludge is pumped directly from the final settling tank to a methane tank (digester). In well-functioning installations, the suspended particles of this sludge are rarely superior to l, by weight. Such a high moisture content in the sludge is unprofitable, because it increases the volume of liquid fluid that overflows from the submersible agent, and requires a large consumption of heat in heated methane tanks. In addition, diluted sludge requires a large amount of rotator.

If, on the other hand, the thickening tank is pumped through the silt B and left for about 24 hours there, a thicker consistency silt is obtained. This sludge can then be subjected to rotting.

The phenomenon of sludge compaction, apparently, is caused largely by a septic process, which occurs when sludge is made to linger for a long period of time. The seal also affects

increased squeezing pressure, due to the fact that in a separate thickening tank it is possible to significantly increase the height of the sludge bed.

According to the present invention, a portable tank, representing an acidic fermentation well, is placed between a conventional secondary or final settling tank and a decommissioning tank (methane tank). The ooze from the thickener passes into the transfer agent, and the excess liquid overflowing from the thickener returns back to the aerotank. The whole process proceeds as follows. The crude wastewater enters the aerotank where it is mixed with air. From here the mixture flows into the secondary clarifier. Silt from the bottom of the sump goes into a thickening tank. In it, the sludge is deposited and compacted. It is in this thickener that the volume of sludge becomes significantly smaller. This

the compacted sludge is drawn from the bottom of the thickening tank and enters a conventional rotting tank (methane tank). As is usually assumed in such installations, some of the liquid contents from the top of the thickener can be returned back to the aerotank, just like liquid from the submersible. In addition, as is sometimes the case in conventional installations, thick sludge from the secondary clarifier is also possible (it can go back to the aerotank.

The subject of the patent.

A method of treating sewage sludge, characterized in that the sludge after the aerotank and the settling tank and before entering it in the distiller is subjected, for the purpose of compaction, to the action of septic bacteria creating in it conditions of acid fermentation.