KR102213606B1 - Sludge reduction treatment system - Google Patents

Abstract

The present invention relates to a sludge reduction treatment system, which is configured to agitate sludge, which is generated in a process of treating waste plastics for recycling, along with microorganisms in a treatment unit and circulate the gas generated during sludge treatment to the inside of the treatment unit. Therefore, it is possible to significantly lower the moisture content of the sludge within a short period of time, thereby reducing costs of sludge treatment and preventing air pollution.

Description

Sludge reduction treatment system

The present invention relates to a sludge reduction treatment system, and more particularly, configured to agitate sludge generated in the process of treating waste plastics together with microorganisms in the treatment unit, and gas generated during sludge treatment inside the treatment unit. The present invention relates to a sludge reduction treatment system that is configured to circulate to and to significantly reduce the moisture content of sludge within a short time, thereby reducing the cost of sludge treatment and preventing air pollution.

In recent years, due to industrialization and urbanization, environmental pollution is becoming more and more serious, and discharged sewage, wastewater, and sewage have become very diverse.

Facilities for treatment thereof are also advanced and treatment costs are increasing.

In addition, as water pollutants in sewage and wastewater that have not been completely treated are introduced into rivers or lakes and other water sources, there are many problems in efficient water quality management.

Current sewage and wastewater purification treatment technologies include physicochemical methods such as filtration facilities, chemical agglomeration, precipitation, oxidation treatment, and various pollutants by maximizing the metabolic process of microorganisms in the bioreactor where activated sludge is stored. There is a biological treatment method, and the physicochemical method has the advantage that it can be installed and used additionally without making a big change to the existing treatment facility facilities, and can obtain a stable and high-efficiency treatment effect.

The biological treatment method is more advantageous than physical and chemical methods in terms of treatment efficiency versus cost, and is used in most domestic and foreign sewage and wastewater treatment processes as a main treatment process for treating large-scale sewage and wastewater as well as small and medium-sized scales.

Among the biological treatment methods of sewage and wastewater, the standard activated sludge method, which is the basic method, is largely composed of an initial settling cell, an aeration tank, and a final settling cell to perform the process.

On the other hand, the sequencing batch reactor (SBR) in which the inflow-microbial reaction-precipitation-discharge process of sewage and wastewater consists of a series of processes within a single reactor uses a single reactor as the main reactor. Due to the advantages of reducing the site area, eliminating the need to separately accommodate a sedimentation pond, and reducing labor costs by providing the convenience of operation by an automated facility, the biological sewage treatment system is widely used for small and medium-sized sewage treatment. It is a wastewater treatment method.

In particular, the sludge generated in the process of treating such sewage and wastewater is reduced or dried by introducing microorganisms into a microbial reaction tank.

However, most of these microbial reactors have a structure for agitating the entire sludge, so there is a problem in that the agitation is not performed evenly, and there is a problem that the supply of air and sludge is not made smoothly.

In particular, since the agitation is not performed smoothly, the sludge sticks to the inside of the stirrer due to the inherent adhesive force of the sludge.

In addition, since the microbial reaction tank has a structure for heating by installing a heating facility outside the stirrer, the heating efficiency is relatively low, and uniform microbial activity cannot be obtained at each part of the stirrer.

In view of this, a sludge dehydrator and a device for removing and reducing organic sludge using microorganisms have been proposed in Patent Application No. 10-2016-0142712.

Looking at, a conventional general sludge dehydrator and organic sludge extinction and reduction device using microorganisms includes a microbial reaction tank for reducing dewatered sludge by an electroosmotic dehydrator or decanter, and the microbial reaction tank has a bottom surface inclined toward the center. A tank part having a hopper part, and a guide cylindrical member installed vertically at the center of the tank part and spaced apart from the bottom part and the bottom surface of the tank part by a predetermined distance so that the sludge of the lower part flows in, and a guide cylindrical member installed in the center of the guide cylindrical member It includes a drive shaft that is positioned at and both ends are supported by the tank, a screw member installed on a drive shaft on a side corresponding to the inner circumferential surface of the guide cylindrical member, and a drive motor installed on the upper side of the tank to drive the drive shaft. The upper and lower agitation unit and the chamber surrounding the hopper unit located below the tank unit, a heating unit installed inside the chamber to heat the hopper unit to activate microorganisms located inside the hopper unit, and connected to the tank unit An exhaust pipe, a heat exchanger for heat exchange with air discharged through the exhaust pipe, and external air are supplied to the chamber through a heat exchanger.The air supply pipe in which the blower is installed, and the inside of the chamber and the hopper are connected to the chamber from the blower. An air supply unit having a heated air supply pipe that allows the air supplied to the hopper to be supplied to the lower side of the hopper, and is installed inside the tank to prevent sludge from adhering to the guide cylindrical member and the supporting member supporting the same. And a pulse generating unit.

However, in the above-described conventional general sludge dehydrator and organic sludge extinction and reduction device using microorganisms configured as described above, the stirring unit is installed vertically inside the reaction tank, so that when the sludge introduced into the hopper unit through the sludge supply unit is stirred, the Since only the sludge stirred through the stirring unit is agitated, the amount to be stirred is too small, and there is a disadvantage that the sludge stored in the lower portion of the hopper cannot be transferred to the stirring unit, so that the stirring cannot be performed.

In addition, the conventional general sludge dehydrator and the organic sludge extinction and reduction device using microorganisms do not have a treatment unit for odor gas generated during sludge reduction, which may cause air pollution during exhaust during exhaust, as well as civil complaints. There is a problem.

Patent application number 10-2016-0142712, filing date; October 31, 2016

Accordingly, the present invention is conceived to solve the above-described problems, and is configured to stir the sludge generated in the process of treating the waste plastic together with the microorganisms in the treatment unit, and to treat the gas generated during the sludge treatment. It is designed to circulate internally, so that the moisture content of sludge can be remarkably lowered within a short time, thereby reducing the cost of sludge treatment and providing a sludge reduction treatment system that can prevent air pollution. There is a purpose.

Other objects of the present invention will become apparent as the technology progresses.

The sludge reduction treatment system of the present invention to achieve the above object is driven by the control of the control unit to lower the water content of the sludge, so that the mixed sludge mixed with sawdust and microorganisms can be introduced into the sludge, an input port is formed on the upper surface thereof. , A discharge port is formed on one side to discharge the dried sludge due to loss of moisture, and a treatment unit provided to stir while applying heat to the input mixed sludge, and a treatment unit installed at one side of the treatment unit in the treatment unit. A cooling and washing tower provided to supply dry air to the inside of the processing unit by spraying the washing water while flowing the exhaust gas to the bottom and flowing to the top when the mixed sludge is reduced, and to remove water vapor contained in the exhaust gas. And a cooling tower installed on one side of the cooling and washing tower and provided with a washing water circulation pump connected to the washing water circulation pipe so as to cool the washing water to supply circulation.

In addition, the mixed sludge is composed of a mixture of sawdust and microorganisms in the sludge containing moisture, and the sawdust prevents hardening and forms voids when mixing and removing odors to accelerate the evaporation of moisture contained in the sludge. It is characterized in that the microorganisms are added in an amount of 5 to 20 parts by weight based on the weight of the sludge input so that the organic matter can be decomposed, and the microorganisms are added in an amount of 0.5 to 2 parts by weight and mixed.

As described above, according to the sludge reduction treatment system according to the present invention, the moisture content of the sludge can be significantly reduced within a short time, thereby reducing the cost of sludge treatment and cleaning the exhaust gas generated during the sludge treatment. Since it is circulated and supplied to the treatment tank, there is an effect of preventing air pollution by not releasing exhaust gas into the atmosphere.

1 is a block diagram showing a sludge reduction treatment system according to the present invention.
2 is a front view showing a treatment tank of the sludge reduction treatment system according to the present invention.
3 is a view showing the inside of the treatment tank of the sludge reduction treatment system according to the present invention in a plan view.
4 is a view showing a state in which a rotating shaft for stirring is installed in a housing for a treatment unit included in a treatment tank of the sludge reduction treatment system according to the present invention.
5 is a view showing a cooling and washing tower of the sludge reduction treatment system according to the present invention.
6 is a view showing a state in which the sludge reduction treatment system according to the present invention is installed.
7 is a view showing a treatment tank of the sludge reduction treatment system according to the present invention.
8 is a view showing a treatment tank of the sludge reduction treatment system according to the present invention from a different angle.

Hereinafter, an embodiment of the sludge reduction treatment system according to the present invention will be described in detail.

First of all, it should be noted that in the drawings, the same components or parts denote the same reference numerals as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the subject matter of the invention.

As shown, the sludge reduction treatment system 100 according to the present invention is driven by the control of the control unit to reduce the water content of the sludge, so that the mixed sludge mixed with sawdust and microorganisms can be introduced into the sludge, the input port 111a ) Is formed, and a discharge port (111b) is formed to discharge the dried sludge due to loss of moisture on one side, and a treatment unit 110 provided inside to stir while applying heat to the mixed sludge , It is installed on one side of the processing unit 110 to remove water vapor contained in the exhaust gas by injecting washing water while flowing the exhaust gas generated when the mixed sludge is reduced by the processing unit 110 to the bottom and flowing upward. A cooling and washing tower 130 provided to supply dry air into the treatment unit, and a washing water circulation pipe 151 installed on one side of the cooling and washing tower 130 to cool the washing water to enable circulation and supply. It comprises a cooling tower 150 is provided with a pump 152 is connected.

Here, the mixed sludge is composed of a mixture of sawdust and microorganisms in the sludge containing moisture, and the sawdust prevents hardening and forms voids when mixing and removing odors, thereby promoting evaporation of moisture contained in the sludge. In order to decompose organic matter, the microorganisms are added in an amount of 5 to 20 parts by weight based on the input weight of the sludge, and the microorganisms are mixed in an amount of 0.5 to 2 parts by weight.

Hereinafter, the sludge reduction treatment system according to the present invention will be described in more detail with reference to FIGS. 1 to 7 in the accompanying drawings.

First, the treatment unit 110 of the sludge reduction treatment system 100 according to the present invention is stirred while applying heat to the mixed sludge introduced through the inlet 111a, and then the dried sludge having a low moisture content can be discharged. It is equipped.

That is, the treatment unit 110 has an input port 111a formed on the upper surface so that the mixed sludge mixed with sawdust and microorganisms can be injected into the sludge having a water content of 95% or more through an input means (not shown), and one side A discharge port (111b) is formed to discharge the dried sludge due to reduced moisture, and a through hole (not shown) is formed on the front and rear surfaces to allow the rotating shaft for stirring to be rotatably installed. The agitation space to increase the contact area by storing the mixed sludge injected through the inlet by being fixedly installed in the transverse direction by interposing an insulating material in the housing 111 for the processing unit to be processed and the housing 111 for the processing unit. It is formed in a "U"-shaped cross section with an open top to form the part 112a, and the gate part 112b can be opened and closed through the discharge port 111b so as to discharge dried dried sludge on one side of the outer surface. A heating pipe (113) installed in the agitation tank (112) in which the heating medium oil is stored and provided therein, and a heating pipe (113) installed in the stirring tank (112) to heat the heating medium oil by applying power, By being rotatably installed on one side and the other side of the processing unit housing 111 via a bearing, it is located in the transverse direction in the stirring space part 112a of the stirring tank 112, and the stirring blade 114a on the outer circumferential surface ) Is provided with a plurality of agitation shafts 114 formed at regular intervals, and the agitation shaft 114 is fixedly installed on the outside of the housing 111 for processing and driven by applying power to a chain (not shown) It consists of a driving motor 115 for stirring that is provided to be connected and rotated via a).

At this time, the internal temperature of the housing 111 for the treatment unit is configured to be maintained at 60° C. to 80° C. so that moisture contained in the sludge can be evaporated without killing microorganisms.

The cooling and washing tower 130 is installed on one side of the processing unit 110 to inflow the exhaust gas generated when the mixed sludge is reduced by the processing unit 110 to be circulated inside the processing unit 110. It is provided to remove water vapor and odor contained in the exhaust gas.

That is, the cooling and washing tower 130 is installed on one side of the upper surface of the treatment unit housing 111 of the treatment unit 110 in communication with the interior to discharge the gas generated during sludge reduction. An exhaust gas blowing fan 132 installed on the exhaust gas exhaust pipe 131 and configured to blow exhaust gas by driving it under the control of a control unit, and the exhaust gas An inlet port connected to the other end of the discharge pipe 131 is formed in the lower part, and therein, a cooling and cleaning housing 133 that is provided by storing washing water to cool and clean the exhaust gas, and the cooling and cleaning housing 133 ) By being installed inside, a plurality of washing water is supplied through the supply pump 134 and the washing water supply pipe 135 to cool the exhaust gas introduced through the inlet and is positioned above the inlet to be sprayable. The washing water spray nozzle part 136 provided with a spray nozzle (not shown) and the washing water spray nozzle part 136 are located above the inlet by being installed below the washing water spray nozzle part 136 A scrubber part 137 filled with a polling member (not shown) inside so that the contact area between the washing water sprayed through and the exhaust gas is widened to cool while removing water vapor contained in the exhaust gas to create dry air. ), and one end is connected to the upper portion of the cooling and cleaning housing 133, and the other end is connected to the side of the treatment unit housing 111 of the treatment unit 110 to transport dry air into the treatment unit housing 111 It consists of a dry air supply pipe 138 provided to be supplied.

In addition, by being positioned above the washing water spray nozzle part 136, it is installed inside the cooling and washing housing 133 and supplied through the washing water supply pipe 135 and an upper washing water supply pipe 139a connected to one end thereof. An upper washing water spray nozzle part 139 having a plurality of upper spray nozzles (not shown) is further provided to enable spraying.

In addition, by being installed below the upper washing water spray nozzle part 139, the washing water is positioned above the washing water spray nozzle part 136 and sprayed through the upper washing water spray nozzle part 139, and An upper scrubber part 140 is provided with an upper polling member (not shown) filled therein so that the contact area of the exhaust gas is widened to remove unremoved water vapor contained in the exhaust gas and recool to make dry air. More is provided.

In addition, a scattering prevention plate 141 is further provided on the upper portion of the upper washing water spray nozzle part 139 so that the washing water by spraying the washing water is scattered and does not flow into the dry air supply pipe 138.

When treating sludge having a water content of 96% generated during waste plastic recycling through the sludge reduction treatment system according to the present invention made as described above, first, as shown in FIGS. 1 to 8 of the accompanying drawings, the sludge 100 Mixed sludge is made by adding 10 kg of sawdust and 1 kg of microorganisms to kg

The mixed sludge prepared in this way is introduced into the interior through the inlet 111a formed in the housing 111 for the treatment unit of the treatment tank 110.

The mixed sludge injected through the inlet 111a is stored in the stirring tank 112, and the stored mixed sludge is stirred by a plurality of stirring blades 114a by the rotation of the stirring shaft 114, while a heating pipe ( Moisture contained in the mixed sludge is evaporated by the surface temperature of the stirring tank 112 heated by the heating of 113) and the internal temperature of the housing 111 for the treatment part maintained at 70°C.

Gas is generated inside the housing 111 for the treatment unit due to water evaporation, and the generated gas is driven by the exhaust gas blowing fan 132 through the exhaust gas discharge pipe 131 to the cooling and washing tower 130 It flows into the lower portion of the housing 133 for cooling and cleaning.

The exhaust gas introduced into the cooling and cleaning housing 133 is in contact with the surface of the scrubber unit 137 provided with a polling member being filled while moving upward, and by the washing water sprayed from the washing water spray nozzle unit 136 It is made into dry air by cooling while removing water vapor contained in the exhaust gas.

At this time, the washing water stored in the cooling and washing housing 133 is always kept in a cooled state by circulating the cooling tower 150.

Thereafter, the dry air made through the cooling and cleaning housing 133 flows into the housing 111 for the treatment section of the treatment tank 110 through the dry air supply pipe 138 to reduce power consumption when reducing mixed sludge. In addition, air pollution can be prevented by not releasing gas into the atmosphere.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

100; Sludge reduction treatment system 110; Processing
130; Cooling and washing tower 150; Cooling tower

Claims (7)

The sludge reduction treatment system,
Dry sludge which is driven by the control of the control unit and has an inlet (111a) formed on the upper surface so that the mixed sludge mixed with sawdust and microorganisms can be injected into the sludge to reduce the moisture content of the sludge, and moisture is reduced on one side thereof. A treatment unit 110 having a discharge port 111b to discharge the mixed sludge, and being provided to stir while applying heat to the input mixed sludge;
The treatment unit 110 is installed on one side of the treatment unit 110 to remove water vapor contained in the discharge gas by injecting washing water while flowing the exhaust gas generated when the mixed sludge is reduced by the treatment unit 110 to the bottom and flowing upward. A cooling and washing tower 130 provided to supply dry air into the processing unit;
It includes a cooling tower 150 installed on one side of the cooling and washing tower 130 and provided with a washing water circulation pump 152 in the washing water circulation pipe 151 so that the washing water can be cooled and supplied for circulation,
The cooling and washing tower 130 is installed on one side of the upper surface of the treatment unit housing 111 of the treatment unit 110 to be in communication with the interior, and is provided to discharge gas generated when sludge is reduced. And, an exhaust gas blowing fan 132 installed on the exhaust gas discharge pipe 131 and provided to blow exhaust gas by driving under the control of a control unit, and the exhaust gas discharge pipe 131 The inlet port connected to the other end of) is formed at the bottom, and there is a cooling and cleaning housing 133 that is provided with washing water to cool and clean the exhaust gas, and the cooling and cleaning housing 133. Thereby, a plurality of injection nozzles are provided so that the washing water is supplied through the supply pump 134 and the washing water supply pipe 135 so as to cool the exhaust gas introduced through the inlet and can be sprayed. The washing water spraying nozzle part 136 that is installed, and the washing water and exhaust gas that are positioned above the inlet port and sprayed through the washing water spray nozzle part 136 by being installed under the washing water spray nozzle part 136 A scrubber part 137 filled with a polling member and provided inside to make dry air by cooling while removing water vapor contained in the exhaust gas by widening the contact area, and one end at the top of the cooling and cleaning housing 133 It is connected, and the other end is composed of a dry air supply pipe 138 connected to the side of the treatment unit housing 111 of the treatment unit 110 to supply dry air to the inside of the treatment unit housing 111 Sludge reduction treatment system characterized by.
The method of claim 1,
The mixed sludge is composed of a mixture of sawdust and microorganisms in the sludge containing moisture, and the sawdust prevents hardening and forms voids when mixing and removing odors to facilitate the evaporation of moisture contained in the sludge. , A sludge reduction treatment system, characterized in that the microorganisms are added in an amount of 5 to 20 parts by weight based on the input weight part of the sludge so that the organic matter can be decomposed, and the microorganisms are added and mixed in an amount of 0.5 to 2 parts by weight.
The method of claim 1,
The treatment unit 110 has an input port 111a formed on the upper surface so that the mixed sludge mixed with sawdust and microorganisms can be injected into the sludge having a water content of 95% or more, and the moisture is reduced on one side to discharge dried sludge. An outlet (111b) is formed so as to be able to be performed, and a through hole is formed and provided on the front and rear surfaces to allow the rotation shaft for stirring to be rotatably installed, and the housing for the treatment unit 111 A "U" shape with an open upper part to form a stirring space 112a to increase the contact area by storing the mixed sludge injected through the inlet by being fixedly installed in the transverse direction with an insulating material interposed therein It is formed in a cross-section of the outer surface, through the outlet (111b) to allow the discharge of dried dry sludge, the gate portion (112b) is installed to be open and closed, and the inside of the stirring tank 112 provided by storing heat medium oil ), a heating pipe 113 installed inside the stirring tank 112 to heat the heat medium oil by applying power, and a bearing on one side and the other side of the housing 111 for the treatment unit By being rotatably installed, it is located in the transverse direction to the stirring space part 112a of the stirring tank 112, and the stirring shaft 114 is provided with a plurality of stirring blades 114a formed at regular intervals on the outer circumferential surface. And, it is fixedly installed on the outside of the housing 111 for the treatment unit and driven by applying power to the agitation driving motor 115 provided to rotate the stirring shaft 114 through a chain. Sludge reduction treatment system, characterized in that configured.
delete The method of claim 3,
Sludge reduction treatment system, characterized in that the internal temperature of the stirring tank 112 is configured to be maintained at 60 ℃ to 80 ℃ to evaporate the moisture contained in the sludge without killing microorganisms.
The method of claim 1,
On the upper part of the washing water injection nozzle part 136, an upper washing water injection nozzle part provided with a plurality of upper injection nozzles to be sprayed by being supplied through an upper washing water supply pipe 139a connected to one end of the washing water supply pipe 135 ( 139), and the washing water positioned above the washing water spray nozzle part 136 by being installed under the upper washing water spray nozzle part 139 and sprayed through the upper washing water spray nozzle part 139 It is further provided with an upper scrubber part 140 filled with an upper polling member to make dry air by re-cooling while removing unremoved water vapor contained in the exhaust gas by widening the contact area between the and exhaust gas. Sludge reduction treatment system characterized by.
The method of claim 6,
Sludge reduction, characterized in that a scattering prevention plate 141 is further provided on the upper part of the upper washing water spray nozzle part 139 so that the washing water by spraying the washing water does not scatter and flow into the dry air supply pipe 138 Processing system.

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