KR100910608B1 - Sludge treatment system - Google Patents

Abstract

Disclosed is a sludge treatment apparatus capable of increasing the decomposition rate of organic materials by supplying sludge with high concentration to a digester to increase the purification capability of waste water. The sludge treatment apparatus according to the present invention is a flocculated sedimentary solid solid waste (usually sludge) generated during the treatment through the process of sedimentation, aeration (bioreactor), filtration, disinfection, etc. contained in the waste water. During the process of condensation, digestion, and dehydration (reduction of sludge treatment or sludge treatment), in particular, by providing sludge concentration means above the digester to decompose organic substances, expansion of digestion tanks or expansion of existing facilities Extinguishing capacity can be greatly improved by utilizing the existing facilities to the maximum without changing the facilities (sludge transfer pump and its pipes, etc.). In other words, by supplying the highly concentrated sludge to the digester by using the sludge concentrating means, the sludge volume is reduced and the residence time (extinguish days) in the digester is prolonged. At the same time, the internal temperature of the digester is increased to increase the digestion capacity of the digester.

Description

Sludge Treatment System {SLUDGE TREATMENT SYSTEM}

The present invention relates to a sludge treatment apparatus, and more particularly, to a sludge treatment apparatus that effectively removes organic substances from contaminants contained in waste water to improve treatment water quality and reduce treatment costs.

Water treatment system refers to the process of separating and purifying pollutants contained in sewage, sewage, wastewater, etc. (collectively referred to as wastewater) from water through processes such as precipitation, aeration (biological treatment), filtration, and disinfection. In this process, the contaminants separated in this process are in the form of juicy solids, and the loss of water and decomposition of organic substances are achieved through concentration tanks, digesters, dehydrators, dryers, and incineration processes. This process is called sludge treatment process or sludge reduction process. In other words, the contaminants contained in the waste water through the sludge treatment process become highly sludge (sludge) concentrated with high concentrations of organic matter or pollutants, and the water is reduced by the concentration tank and the concentration facility and organic matter is removed from the anaerobic digestion tank. After decomposing and stabilizing, dehydrating to remove moisture to minimize the volume, and then drying or incineration, the residue is finally disposed of.

However, in many conventional sludge treatment apparatuses, the concentration of sludge does not increase to an appropriate level of 5% during the concentration process during the sludge treatment process, or the concentration of sludge is high even if the concentration is increased to this level. There was a problem that can not be added to the digester with a pump). Therefore, by digesting a large amount of sludge at a low concentration (2 to 3%) in a digester with limited capacity, the digester may be deficient in capacity, and some of the sludge added to the digester and the sludge being digested are leaked into the water treatment process. As the water quality in the water treatment process is deteriorated, the dewatering concentration of the sludge cake is also low in the sludge treatment process, resulting in an excessive increase in its amount.

On the other hand, as described above, the sludge, which is a condensate of contaminants generated during the water treatment of wastewater, is composed of most of solids, and the organic material is decomposed and removed by anaerobic digestion or incineration using an digester. . However, the digester is expensive to construct, and it is expensive to maintain the temperature because it operates at a temperature higher than the water temperature or air temperature (high temperature maintenance costs, the digester temperature is more than 35 degrees, high temperature digestion is more than 55 degrees). Therefore, in order to solve this problem, the sludge solids concentration must be high to reduce the capacity of sludge added to the digester, and the amount of sludge should be maintained at a high temperature for a sufficient period of time in the digester to properly digest the organic matter and the concentration of the sludge treated. In addition, it is easier to dehydrate and the amount of dehydrated cakes is reduced (reduced by organic decomposition and reduced by cake concentration).

However, most sewage treatment plant or digester operators are unable to concentrate the sludge (5%) suitable for digesting sludge to be added to the digester, and in some cases the digester is concentrated even at high concentrations. The pump and its conveying piping are not suitable for transporting high concentrations of sludge (5 to 10%), and the concentration of sludge is deliberately lowered to a level suitable for existing equipment, or excessively low concentration without considering the capacity of the digester. Sludge was excessively put into the digester.

Therefore, the present invention concentrates the sludge to a higher concentration than before (6 to 10%) in the most economical way by effectively using the existing concentration facilities to maximize the digestive capacity of the existing digester without expanding the anaerobic digester. In order to smoothly introduce high concentration of sludge into the digester using existing pipes or existing transport facilities.

The present invention is to solve the above problems, the object of the present invention is to supply the sludge with high concentration to the digester to achieve the decomposition of organic matter effectively and the volume of the sludge circulated in the entire water treatment (concentration and volume is inversely proportional) The present invention provides a sludge treatment apparatus that can reduce power consumption and ultimately improve treated water quality.

The sludge treatment apparatus according to the present invention for achieving the above object is in the sludge treatment apparatus for treating the contaminants contained in the waste water through sedimentation, aeration, concentration, digestion, dehydration process, the sludge concentrated in the concentration tank upper side of the digester Concentrate the sludge once more using the sludge thickening equipment to make a high concentration of sludge and add it to the digester.

In addition, the sludge thickening means of the sludge treatment apparatus according to the present invention is a light weight and durable equipment that can be installed on the upper end of the digester, it is a thickening equipment of a type suitable for utilizing the existing structure of the digester well.

In addition, the sludge thickening means of the sludge treatment apparatus according to the present invention is installed in balance with the structure of the top of the digester by using a flat base in the thickening sludge inlet at the top of the digester, so that the concentrated sludge can fall vertically into the inlet Is installed. In addition, the sludge thickening means of the sludge treatment apparatus according to the present invention is a structure in which all the appearance is shielded so that the odor or gas that may occur during the concentration of the sludge is not directly discharged to the outside.

Another important problem solving method of the present invention has been to digest the sludge having a concentration of about 5% in the digester until now, but by digesting the sludge of 6% to 10% high concentration in the present invention, the digester capacity is more than doubled. With the effect of expansion, the capacity of the digester was insufficient, or the newly constructed sewage treatment plant was able to reduce the construction cost by 1/2 or more using the principle of the present invention.

In the sludge treatment apparatus according to the present invention, by installing the sludge concentrating means on the upper part of the digester, it is possible to make the most of the conventional facilities without the expansion of the expensive condensing equipment or the exchange of pumps or pipes, thereby greatly increasing the processing capacity and reducing the management cost. That is, the sludge first concentrated using the concentration tank of the existing facility is reconcentrated back to the high concentration through the sludge thickening means (secondary concentration) and supplied to the digester, so that the sludge volume is drastically reduced to 1/2 of the previous level, so that the sludge stays in the digester. The time (digestion days) is extended, and the amount and the amount of discharged to the digester is greatly reduced, thereby reducing the energy consumption required to maintain the digester temperature and increasing the temperature of the digester to increase the organic decomposition ability of the digester. This means that the effective capacity of the digester can be doubled if the concentration to be added to the digester is doubled. The existing treatment plant can reduce the use of the digester, and the new sewage treatment plant can reduce the cost of the digester to 1/2. Can be reduced.

Hereinafter, a sludge treatment apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 schematically shows a sludge treatment apparatus according to the present invention, as shown in the contaminants (sludge) contained in the waste water is settled screen (1), primary sedimentation tank (2), aeration tank (3), Purification is performed while passing through the secondary settling tank 4, the concentration tank 5, the digestion tank 6, and the dehydration tank 7.

The screen 1 blocks the inflow of sediment and contaminants contained in the waste water.

The primary sedimentation tank 2 separates the wastewater passing through the screen 1 into sedimentary sludge and supernatant. The separated supernatant is introduced into the aeration tank (3), and the sludge deposited on the bottom of the sedimentation tank is introduced into the concentration tank (5) through a separate sludge transfer line (L1).

The aeration tank 3 decomposes and removes contaminants contained in the supernatant of the primary precipitation tank 2 using aerobic microorganisms.

The secondary sedimentation tank 4 separates the effluent from the aeration tank 3 into supernatant water and activated sludge (surplus sludge and conveying sludge).

The thickening tank 5 reduces the moisture of the sludge produced in the settling tank (primary and secondary) and increases the concentration of the solid to reduce the volume of the sludge. When the water content of sludge is high, the volume of sludge is larger than unit solids (dry solids), which requires a lot of power for transportation and treatment, and also requires a lot of processing capacity of the treatment equipment or the piping.

Inside the digester 6, when a large amount of anaerobic microorganisms newly introduced sludge organic matter is converted into organic acid through acid fermentation, the organic acid is decomposed into methane gas and carbon dioxide gas and multiplyed. For example, the high concentration of sludge introduced into the digester 6 lowers the concentration of about 6 to 10% to about 3 to 5% when the digestion reaction (acid fermentation and methane fermentation) is terminated, and the increase of alkalinity and bicarbonate increased during the digestion reaction. As the solubility and fluidity increase due to the increase, and the level of the digester is extinguished, the digested sludge is more easily discharged than the storage tank. At this time, the sludge is stabilized, so the odor is reduced, and the solid concentration is also increased, so that dehydration can produce not only a sludge cake with a low moisture content, but also reduce the amount of cake produced. In this process, gas containing methane, carbon dioxide, etc. is generated more than before. This gas is a combustible material and is used as an energy source of power generation or a boiler.

The digester (6) has a center dome (6a) for discharging the excess gas and the stirring gas pipe at the top, the overflow port (6b) for maintaining the water level in the digester, the concentrated sludge and the circulating sludge is introduced An injection port 6c, a sample collection port, a ventilation port, a pipe, and the like are provided.

According to the present invention, sludge concentration means 10 is provided between the concentration tank 5 and the digester 6, preferably above the digester 6.

The sludge thickening means 10 concentrates about 2 to 3% of the sludge firstly concentrated through the pump P from the concentration tank 5 or the existing sludge thickening facility to about 6 to 10% of the sludge. .

To this end, the secondary concentration means 10 of the sludge is installed adjacent to the concentrated sludge inlet of the digester using a flat base 11 to the concentrated sludge inlet 6c at the top of the digester 1, preferably concentrated sludge It is installed so that it can fall vertically to the inlet (6c) directly without the transport equipment or piping at the shortest distance. At this time, the circulating sludge pipe (not shown) is also installed above the sludge concentrating means 10 so that the sludge introduced into the digester 6 can be mixed with each other.

The sludge thickening means 10 is all shielded so that the odor is not exposed to the outside, the internal air is discharged to the odor removal facility (not shown) through the duct, the sludge and the washing water and chemicals to be concentrated to the pipe To be transported through.

The sludge thickening means 10 may be a gravity belt concentrator, a rotary drum concentrator, a centrifugal concentrator, etc., but a gravity belt concentrator or a rotary drum concentrator having a low power consumption of 1 to 3 kW is preferable.

The dehydration tank (7) is dehydrated while passing through the digester (6) to dehydrate the stabilized digestion sludge to make a cake state.

According to the present invention, if the sludge concentration means 10 is installed between the concentration tank 5 and the digestion tank 6 as above, preferably, the anaerobic decomposition (digestion) in the digestion tank 6 is stabilized 6 to 10. % Of input sludge is changed into digested sludge of 3 ~ 5%, and organic matter decreases. Properly digested sludge significantly reduces sludge cake production rate because dehydrated at high concentration of 75% or less. do.

1 is a view schematically showing a sludge treatment apparatus according to the present invention.

* Brief description of the main references in the drawings *

1.Sedimentation screen 2,4.Sedimentation tank

3..aeration tank 5..concentration tank

6..Digestion tank 7..Dehydration tank

10.Sludge Concentration Means

Claims (4)

In the sludge treatment apparatus for treating the contaminants contained in the waste water through sedimentation, aeration, concentration, digestion, dehydration process, Sludge treatment apparatus characterized in that the sludge concentration means is provided on the upper side of the digester for performing the digestion process. The method of claim 1, The sludge thickening means is a sludge processing apparatus, characterized in that the belt-type thickening equipment. The method according to claim 1 or 2, The sludge thickening means is a sludge treatment apparatus, characterized in that all the appearance is shielded. The method of claim 1, The sludge thickening means is sludge treatment, characterized in that the sludge inlet at the top of the digester using a flat base horizontally installed in the shortest close proximity to the thickening sludge inlet, the concentrated sludge is vertically dropped into the inlet. Device.

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