SU1386593A1 - Method of treating sediments of waste water - Google Patents

Abstract

The invention relates to methods for treating sewage sludge and can be used to produce a product suitable for agricultural needs. The aim of the invention is to reduce the moisture content of precipitation and increase the degree of disinfection. Sewage sludge is applied with a layer of 5-15 cm on the spent molding liquid glass mixture and incubated for 3-5 days. 1 hp ff, 1 tab.

Description

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The invention relates to the treatment of sewage sludge and can be used to obtain a product suitable for agricultural needs from sewage sludge.

The purpose of the invention is to reduce the humidity of precipitation and increase the degree of disinfection.

The method is carried out as follows: ,,,,. ..

A layer of sludge is applied to the layer of spent molding liquid significantly. If there is insufficient sediment layer height.

5-15 cm and withstand for 3-5 days. (Less than 5 cm) further drying of the deposited molding liquids practically does not occur, and at the height of the knee mixtures represent a large tonnage layer above 15 cm significantly reduces the waste of the foundry, not found 5, the rate of sludge dewatering, which is due to its wide application. This waste is due to the fact that the processes of penetration of the brush household. After removing the dewatered sludge from the surface of the spent liquid glass mixture, the latter dries quickly in air due to its high capillary nature and can be reused.

If the sedimentation time is less than three days, the required decrease in humidity is not provided, an exposure of more than 5 days is not advisable, since the humidity does not decrease.

It has high hygroscopicity and capillary properties. In addition, a high pH value (11-12) is characteristic of liquid glass mixtures. Therefore, with the distribution of sewage sludge on the surface of a liquid glass molding mixture, the water contained in the sludge in a colloidal state changes to its free state due to the high pH value of the mixture. Due to the high capillary and hygroscopicity, the mixture absorbs water, and a rapid dehydration of the precipitate takes place. When applying sludge with a moisture content of 95% with a layer of 5–15 cm, sludge dehydration occurs within 3-5 days to 26–46% on a layer of spent liquid-glass molding sand with a height of 1-2 m. This sediment is transportable, there are no processes of decay. The pathogen flora is also absent due to the high pH value. The presence of a large amount of organic matter in the dehydrated sludge allows it to be used as a fertilizer for agriculture.

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Lots of sediment and subsequent coagulation of the sediment are sharply reduced. In addition, this leads to the survival of helminths, the presence of which is recorded in the sediment.

Example 1. Spent molding liquid glass mixture is poured into glass cylinders with a diameter of 100 mm. The height of the layer is 1.0 m. Non-fermented sewage sludge is poured on the surface of the mixture. The height of the sediment layer is 15 cm. The water from the sediment is absorbed into the waste sand and after 5 days the moisture absorption is almost complete. The moisture content of the dewatered sludge is 45%. The sediment does not contain worms.

Example 2. A layer of non-fermented sewage sludge with a height of 5.0 cm is poured on a layer of waste-liquid-glass mixture with a height of 1.5 m. After 5 days, the moisture content of the sediment is 26%. The sediment does not contain worms.

Data on reducing the moisture content of the sediment depending on the exposure time and the height of the sediment layer are given in the table.

,,,,. ..

significantly, with insufficient sediment layer height

economic activities. After removing the dewatered sludge from the surface of the spent liquid glass mixture, the latter dries quickly in air due to its high capillary nature and can be reused.

When the sediment is stored less than three days, the required decrease in humidity is not provided, an exposure of more than 5 days is not advisable, since the humidity does not decrease.

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Lots of sediment and subsequent coagulation of the sediment are sharply reduced. In addition, this leads to the survival of helminths, the presence of which is recorded in the sediment.

Example 1. Spent molding liquid glass mixture is poured into glass cylinders with a diameter of 100 mm. The height of the layer is 1.0 m. Non-fermented sewage sludge is poured on the surface of the mixture. The height of the sediment layer is 15 cm. The water from the sediment is absorbed into the waste sand and after 5 days the moisture absorption is almost complete. The moisture content of the dewatered sludge is 45%. The sediment does not contain worms.

Example 2. A layer of non-fermented sewage sludge with a height of 5.0 cm is poured on a layer of waste-liquid-glass mixture with a height of 1.5 m. After 5 days, the moisture content of the sediment is 26%. The sediment does not contain worms.

Data on reducing the moisture content of the sediment depending on the exposure time and the height of the sediment layer are given in the table.

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The proposed method does not require special mixers for uniform mixing.

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shivani sediment with mineral filler. The resulting product contains significant 13865934

Claims (1)

There are no more helminths available to reduce the moisture content of the sediments, and more organic matter is used to increase the degree of disinfection. This allows dry mineral processing to be used in agriculture without the use of waste molding material. 5 is a bone-shaving mixture, and drying is carried out by using the formula of carrying a layer of sludge on a molding layer 1. Method of treating sludge, liquid-glass mixture for 3-5 days. including drying in the presence of dry2. A method according to claim I, characterized in that the mineral material, ogl "tea \", the sediment layer is 5-15 cm.