SU1293122A1 - Method of dewatering waste water sediment - Google Patents

Abstract

The invention relates to methods for dewatering sewage sludge and can be used in the treatment of sewage sludge from the offices of sulfuric acid pickling cable, engineering and other enterprises, as well as mine water. The aim of the invention is to increase the productivity of dewatering devices, reduce the energy intensity of the process and decrease the moisture content of the dried sludge. The precipitate of water is subjected to a stepped treatment under pressure, after the first stage, the sediment is purged with an air gas mixture with vapors of organic substances — acetone, ethanol, and the precipitate is blown for 0.5–5 microns at the temperature of the mixture. 2 hp f-ly. 9

Description

The invention relates to the treatment of sewage sludge, containing hydroxides of heavy metals, such as copper, iron, and can be used in the treatment of sewage sludge, sulphate pickling offices of cable, engineering, metalworking and other plants, as well as other wastewater during the purification of which hydroxides of copper and iron are formed, for example, mine waters.

The purpose of the invention is to increase the productivity of the dewatering equipment, reduce the energy intensity of the process and reduce the moisture content of the dehydrated sludge.

Example 1. Sediment containing 12.3 g / l of iron hydroxide with a moisture content of 98.1% is treated in the first stage under a pressure of 1.2 at. At the same time, the moisture content of the sediment is reduced to 85%. After the first treatment stage, the partially dehydrated precipitate is purged with an air / acetone gas mixture heated to 40 ° C for 0.5 minutes. The content of acetone in the gas mixture is 30 vol.%. Then, in the second processing stage, the pressure is increased to 3.3 at. The moisture content of the dewatered sludge is 79%, the productivity of the dewatering equipment is 0.41 kg / m / h

When the sediment is squeezed under low pressure, it is partially dehydrated, part of the pores are freed from water, and the water, which is weakly bound to the sediment, is removed. Further, a simple increase in pressure does not give a noticeable decrease in the moisture content of the sediment, since it contains a lot of water tightly bound to the sediment particles. The connection of this remaining water with sediment weakens the introduction into the precipitate of a mixture of air with acetone vapors after the first dehydration stage. Air is the carrier of acetone vapor, which allows the acetone molecules to contact with water throughout the entire volume of the precipitate. At the same time, acetone proves to be a water removal agent due to convection and diffusion both into large and small pores, where air without acetone cannot penetrate. Mixing with water, acetone reduces the surface tension of water several times, the order 338/23

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Mym sharply reduced capillary forces that hold water in small pores. This facilitates the process of sludge dewatering, reduces energy costs for dehydration, and reduces the temperature of the vapor-air mixture.

Example 2. The precipitate from example 1 is treated in a first step under a pressure of 1.2 at. Then the vapor-air mixture, containing 50 vol.% Of acetone, is blown through the sediment for 2.5 minutes at. The pressure is raised to 3.3 at. The moisture content of the dehydrated precipitate is 60.3%.

Example 3. The precipitate is treated under the conditions of Example 2, but the vapor-air mixture contains 50% by volume of ethanol. The moisture content of the dewatered sludge is 61.4%.

The proposed method, in comparison with the known, allows to reduce the moisture content of the dewatered sludge by 28-34% and to increase the productivity of the dewatering equipment by 2.2-4 times. In addition, the advantage of the method is the easy removal of the cake from the filter cloth, less water and inhibited acid for washing. fabrics, less fabric wear. The method also makes it possible to replace filter presses with cheaper and simpler belt filters.

Claims (2)

1. A method of dewatering sewage sludge, which includes pressure treatment under pressure, characterized by TBMs 4TOs in order to increase the capacity of the dewatering equipment, reduce the energy intensity of the process and reduce the moisture content of the dehydrated sludge; with vapors of organic substances - acetone, ethanol. 2. The method according to claim 1, excluding that the precipitate is blown for 0.5-5 minutes at a temperature of 40-60 ° C, 3, Method according to pi. 1 and 2, which is based on the fact that the vapor content of acetone and ethanol in the vapor-gas mixture is 5-95% by volume Circulation 852 Subscription