KR102585072B1 - System for producing sludge pellets with moisture content control - Google Patents

Abstract

The present invention relates to a sludge pellet production system capable of controlling moisture content. In detail, it relates to a sludge pellet manufacturing system capable of controlling the moisture content that can control the amount of moisture contained in the pellet when producing pellets using sewage and wastewater sludge. The moisture content applied to the production line that produces pellets using sludge In a controllable sludge pellet manufacturing system, an integrated control unit that monitors the moisture content of sludge and controls the transport path of the sludge, a supply unit including a pump that supplies sludge, and a water content of the sludge supplied by the supply unit is measured. A first moisture content detection unit that generates first moisture content information, a stirring unit that agitates the sludge, a first pellet manufacturing unit that applies pressure to the sludge to remove a certain amount of moisture and reduce the sludge volume to pelletize the first pellet. A second moisture content detection unit that measures the moisture content of sludge pelletized in the manufacturing unit and generates second moisture content information, a drying unit that removes moisture from the sludge using hot air, and a second moisture content detection unit that measures the moisture content of the sludge that has passed through the drying unit. 3It is characterized by comprising a third moisture content detection unit that generates moisture content information and a second pellet production unit that produces solidified pellets using dried sludge.

Description

Sludge pellet manufacturing system capable of controlling moisture content {System for producing sludge pellets with moisture content control}

The present invention relates to a sludge pellet production system capable of controlling moisture content, and more specifically, to a sludge pellet production system capable of controlling moisture content, which can control the amount of moisture contained in the pellet when producing pellets using sewage and wastewater sludge. .

Sewage facilities, which are essential for creating a comfortable living environment, generate sludge due to the water treatment process. In general, the mass that settles to the bottom of the settling tank is called sludge, and the mass that floats on the surface of the settling tank due to buoyancy is called scum, but in a broad sense, it can be included as sludge.

Sludge is a semi-solid material that must be stabilized and rendered harmless through appropriate treatment methods due to its environmental and potential risks due to its moisture content, putrefaction, pathogenicity, and harmful substances contained in the sludge. Depending on the treatment method, treatment technology can be divided into final treatment methods and recycling methods.

Sludge generated during the sewage and wastewater treatment process is collected into a thickening tank after the sewage and wastewater flows in, and is collected into a thickening tank for final treatment through concentration, digestion, and dehydration.

The sludge generated through the water treatment process contains a large amount of moisture, so it is exported to the outside after pretreatment through dehydration. The moisture content at the time of export is usually around 75-85%.

Recently, in developed countries, the focus seems to be on recovering phosphorus, a valuable material, and recovering new and renewable energy as a heat source for biogas production, incineration, and power generation facilities rather than applying sewage sludge to the soil through composting.

Likewise, there is a need to develop technology for recycling sewage sludge in Korea. A process to recover phosphorus is needed in existing treatment mechanisms. To produce biogas, sludge that has been concentrated and solubilized can be transported to a nearby digester installation facility, where biogas can be produced and high-concentration phosphorus can be recovered from the desorbed liquid and digested liquid. In addition, dewatered sludge can be converted into fuel and phosphorus can be recovered from incineration ash after heat recovery. When recycled as construction materials, etc., the entire sludge can be recycled, so it is necessary to introduce such a resource recycling system.

However, in Korea, most of the sewage sludge generated is incinerated or landfilled. In addition, as civil complaints continue to arise due to severe odor, environmentally friendly measures for sludge disposal are needed. All local governments in Korea are still concerned about sewage sludge treatment and hope to introduce a highly efficient sewage sludge treatment system.

Meanwhile, domestic thermal power plants import and use wood pellets in large quantities to replace existing bituminous coal. Sludge solidification fuel is a domestic fuel that can completely replace wood pellets, and can have the effect of preventing local leaks and saving foreign exchange. At the same time, it can be a pure bio fuel that can reduce greenhouse gases by replacing coal.

Additionally, turning sewage sludge into fuel has the following advantages.

- By-product solid fuel is easy to handle

- Simple transportation due to reduction of sludge surface area and waste weight

- Reduces outflow of waste components by solidifying

- Reduces solubility of contaminants in sludge

- Reduces toxicity in case of harmful sludge

- Semi-permanent use of the landfill site by reducing waste during landfilling

- The price of sewage sludge fuel pellets for thermal power plants is 80% that of imported wood pellets.

Therefore, there is a need to develop a technology for turning sewage sludge into fuel, and a high-efficiency dry pellet production system must maintain an appropriate moisture content and maintain a constant discharge.

Conventional technology, Republic of Korea Patent No. 10-1779136, relates to a pellet manufacturing method using sewage sludge, which includes a sludge preparation step of preparing sewage sludge, and woody raw materials including at least one of wood chips, sawdust, and waste wood. A wood raw material preparation step, a sludge storage step of transferring the sewage sludge and storing it in the first hopper, a wood raw material storage step of transferring the wood raw material and storing it in the second hopper, and sewage sludge from the first hopper and the second hopper. A mixing step in which the wood raw materials from the hopper are transferred to the transfer conveyor and mixed in a mixer to create a mixture, and the pellet drying process is to transfer the mixture to the transfer conveyor and dry and mold it using the compression heat and friction heat generated during processing to produce sludge pellets. Although it is characterized by including a molding step, it does not include a configuration for controlling moisture content in the process of producing sludge pellets.

Republic of Korea Patent No. 10-1779136 (2017.09.11.)

The purpose of the present invention to solve the above problems is to provide a sludge pellet production system that can control the moisture content in producing sludge pellets.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems to be solved by the present invention that are not mentioned herein can be understood by those skilled in the art from the description below. can be clearly understood.

A sludge pellet manufacturing system capable of controlling moisture content according to an embodiment of the present invention to solve the above problem is a sludge pellet manufacturing system capable of controlling moisture content applied to a production line for manufacturing pellets using sludge. An integrated control unit that monitors the moisture content and controls the transport path of the sludge, a supply unit including a pump that supplies sludge, and a first moisture content detection unit that measures the moisture content of the sludge supplied by the supply unit and generates first moisture content information. , a stirring part that stirs the sludge, a first pellet manufacturing part that applies pressure to the sludge to remove a certain amount of moisture and reduce the sludge volume to pelletize it, and the moisture content of the sludge pelletized in the first pellet manufacturing part is measured, A second moisture content detection unit that generates second moisture content information, a drying unit that removes moisture from the sludge using hot air, a third moisture content detection unit that measures the moisture content of the sludge that has passed through the drying unit and generates third moisture content information, and a drying unit. It is characterized by comprising a second pellet production unit for producing solidified pellets using the sludge.

Preferably, the integrated control unit may be characterized in that, when the second moisture content information includes a moisture content above a certain level, the production line is controlled to reintroduce the sludge to the first pellet manufacturing unit.

Preferably, the integrated control unit may control the production line to reintroduce sludge into the drying unit when the third moisture content information includes a moisture content above a certain level.

Preferably, the drying unit includes an air supply module that supplies air to the top of the dryer frame, a first heating module that is provided in the top of the frame and heats air with a plurality of heat pipes, and a bottom of the first heating module. A second heating module is provided and heats the air with a plurality of heat pipes, a conveyor module is provided at the bottom of the second heating module and is provided with a conveyor containing spread sludge, and the air is sucked from the space at the bottom of the conveyor module. It may be configured to further include an exhaust module that is brought in and discharged outside the frame.

Preferably, the first pellet manufacturing unit may be configured to further include a hot air supply module connected to one side and supplying hot air to the inside.

The sludge pellet production system capable of controlling moisture content according to the present invention has the effect of providing a system for producing sludge pellets with controlled moisture content through the first, second, and third moisture content detection units, the first pellet production unit, and the drying unit.

Figure 1 shows a flowchart showing the flow through each configuration from the supply of sludge according to an embodiment of the sludge pellet manufacturing system capable of controlling moisture content according to the present invention to being manufactured into solidified pellets.
Figure 2 is a conceptual diagram showing the movement path of information according to an embodiment of the sludge pellet manufacturing system capable of controlling moisture content according to the present invention.
Figure 3 is an algorithm flowchart showing the process from sludge supply to solidified sludge pellet production according to an embodiment of the sludge pellet production system capable of controlling moisture content according to the present invention.
Figure 4 shows the configuration of the stirring part and the first pellet manufacturing part according to an embodiment of the sludge pellet manufacturing system capable of controlling moisture content according to the present invention.
Figure 5 shows the configuration of a drying unit according to an embodiment of the sludge pellet production system capable of controlling moisture content according to the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms, but the present embodiments only serve to ensure that the disclosure of the present invention is complete, and those skilled in the art It is provided to fully inform the user of the scope of the invention. Additionally, the terms used in this specification are for describing embodiments and are not intended to limit the present invention.

As shown in FIGS. 1 to 5, the sludge pellet production system capable of controlling moisture content according to the present invention is a sludge pellet production system capable of controlling moisture content applied to a production line for producing pellets using sludge, sludge An integrated control unit 100 that monitors the moisture content and controls the transport path of the sludge, a supply unit 1 including a pump that supplies sludge, and the moisture content of the sludge supplied by the supply unit 1 is measured to measure the first A first moisture content detection unit (2) that generates moisture content information, a stirring unit (3) that agitates the sludge, and a first pellet manufacturing unit (4) that applies pressure to the sludge to remove a certain amount of moisture and reduce the sludge volume to pelletize it. ) and a second moisture content detection unit (5) that measures the moisture content of the sludge pelletized in the first pellet manufacturing unit (4) and generates second moisture content information, and a drying unit that removes moisture from the sludge using hot air. (6) and a third moisture content detection unit (7) that measures the moisture content of the sludge that has passed through the drying unit (6) and generates third moisture content information, and a second pellet manufacturing unit that produces solidified pellets using the dried sludge. It may be characterized as including part (8).

First, as shown in Figure 2, the manufacturing system according to the present invention is provided with an integrated control unit 100.

The integrated control unit 100 can monitor the moisture content of sludge and control the transfer path of sludge on the sludge pellet manufacturing production line.

Next, the supply unit 1 may be provided including a pump that supplies sludge to the production line.

Specifically, the supply unit 1 is provided as a mono pump and can supply sludge from the storage tank to the pellet production line.

Next, the first moisture content detection unit 2 can measure the moisture content of the sludge supplied by the supply unit 1 and generate first moisture content information.

The first moisture content information is prepared to measure the moisture content of sludge input to the production line and calculate the amount of moisture to be removed and the amount of heat to be applied during the production process. The first moisture content information generated by the moisture content detection unit is It is transmitted to the integrated control unit 100.

Specifically, the integrated control unit 100 can receive the first moisture content information and set the number of times the sludge repeatedly passes through the first pellet manufacturing unit 4 according to a preset standard.

In addition, the integrated control unit 100 can receive the first moisture content information and set the number of times the sludge passes through the drying unit 6 according to a preset standard.

Next, the stirring unit 3 serves to stir the supplied sludge.

Specifically, the stirring unit 3 is provided to stir the sludge to even out the overall viscosity, prevent jamming during the process, and make pellets more easily manufactured.

Figure 4 shows the configuration of the stirring part and the first pellet manufacturing part according to an embodiment of the sludge pellet manufacturing system capable of controlling moisture content according to the present invention.

Next, the first pellet production unit 4 can apply pressure to the sludge to remove a certain amount of moisture and reduce the sludge volume to pelletize it.

More specifically, the first pellet manufacturing unit 4 may be configured to further include a hot air supply module connected to one side and supplying hot air to the inside.

The hot air supply module can serve to primarily dry sludge in the production line by supplying hot air into the first pellet manufacturing unit (4).

Additionally, the first pellet manufacturing unit 4 may be provided in the form of an extruder including a screw, and moisture may fall downward and be recovered by compression.

In more detail, as shown in FIG. 4, the stirring unit 3 and the first pellet production unit 4 are continuously connected structural devices, and the sludge is continuously produced into the first pellet after stirring. It passes part (4). At this time, the device includes a stirrer 3 and a stirrer cover 31 that stir the sludge, a drive module 41 that drives the device, and a screw module 42 that compresses and transports the sludge.

Next, the second moisture content detection unit 5 can measure the moisture content of the sludge pelletized in the first pellet manufacturing unit 4 and generate second moisture content information.

The second moisture content detection unit (5) is provided to determine whether moisture has been removed from the first pellet production unit (4) below a certain level before the sludge is introduced into the drying unit (6), and exceeds a preset standard value. In this case, the integrated control unit 100 can reintroduce sludge into the first pellet production unit 4.

This is to save the heat energy used in the drying unit (6) and shorten the drying time, and to remove a large amount of moisture in the process of initially producing pellets through compression in the first pellet manufacturing unit (4). Because you can.

Figure 5 shows the configuration of a drying unit according to an embodiment of the sludge pellet production system capable of controlling moisture content according to the present invention.

Next, the drying unit 6 can remove moisture from the sludge using hot air.

Specifically, as shown in Figure 5, the drying unit 6 includes an air supply module 61, a first heating module 62, a second heating module 63, a conveyor module 64, and an exhaust module ( 65) may be further included.

The air supply module 61 can supply air to the top inside the dryer frame.

Additionally, the first heating module 62 is provided at the upper part inside the frame and may serve to heat the air with a plurality of heat pipes.

Additionally, the second heating module 63 is provided at the bottom of the first heating module 62 and can heat air through a plurality of heat pipes.

In addition, the conveyor module 64 is provided at the bottom of the second heating module 63 and is provided as a conveyor containing the sludge spread.

Additionally, the exhaust module 65 may serve to suck air from the space at the bottom of the conveyor module 64 and discharge it to the outside of the frame.

More specifically, the drying unit 6 is characterized in that air is injected into the frame of the drying unit 6, which is divided into five stages, and dries the sludge as it exits, and air is injected into the uppermost layer and discharged from the bottom. You can.

That is, air is continuously supplied to the top of the frame through the air supply module 61. Next, the air is warmed primarily by the first heating module 62, and the air is warmed secondarily by the second heating module 63 provided at the bottom of the first heating module 62. do. Next, the warmed air descends through the conveyor module 64, which contains and transports the sludge pellets manufactured in the first pellet manufacturing unit 4. At this time, the warmed air moves downward holding evaporated moisture, bad odors, and fine contaminants, thereby preventing bad odors around the dryer or contaminants depositing inside the dryer, causing corrosion and damage. Finally, the air containing moisture and bad odor is discharged through the frame through the exhaust module 65.

Next, the third moisture content detection unit 7 can measure the moisture content of the sludge that has passed through the drying unit 6 and generate third moisture content information.

Specifically, the integrated control unit 100 compares whether the third moisture content information generated by the third moisture content detection unit 7 exceeds a preset moisture content standard value, and if it exceeds the standard value, sludge is stored in the drying unit 6. It can be controlled to be re-injected.

Next, the second pellet production unit 8 can produce solidified pellets using the dried sludge.

Specifically, the second pellet production unit 8 is configured to manufacture finalized sludge pellets, and the pellets produced in this way can be transported to a thermal power plant to replace wood pellets that were previously dependent on imports.

Currently, domestic thermal power plants import and use wood pellets in large quantities to replace existing bituminous coal. Fuel made by solidifying sludge is a domestic fuel that can completely replace wood pellets, and can have the effect of preventing local leakage and saving foreign exchange. At the same time, it can be a pure bio fuel that can reduce greenhouse gases by replacing coal.

Turning sludge into fuel has the following advantages: First, sludge solid fuel is easy to handle. Second, it is easy to transport as the sludge surface area and weight are reduced. Third, solidification can reduce the outflow of waste components. Fourth, the solubility of contaminants in sludge decreases. Fifth, in the case of harmful sludge, toxicity can be reduced. Sixth, the landfill can be used semi-permanently by reducing waste during landfilling. Seventh, the price of sewage sludge fuel pellets for thermal power plants is only 80% of that of imported wood pellets, resulting in significant cost savings.

The integrated control unit 100 can control the production line to reintroduce sludge into the first pellet manufacturing unit 4 when the second moisture content information includes a moisture content above a certain level.

In addition, the integrated control unit 100 can control the production line to reintroduce sludge into the drying unit 6 when the third moisture content information includes a moisture content above a certain level.

More specifically, the integrated control unit 100 can predict and calculate the second moisture content information value according to the number of passes through the first pellet manufacturing unit 4 based on the first moisture content information.

In addition, the integrated control unit 100 can predict and calculate the value of the third moisture content information according to the number of passes through the drying unit 6 based on the second moisture content information.

Figure 2 is a conceptual diagram showing the movement path of information according to an embodiment of the sludge pellet manufacturing system capable of controlling moisture content according to the present invention.

Meanwhile, as shown in Figure 2, the sludge pellet production system capable of controlling moisture content according to the present invention further includes a monitoring unit 200, and the integrated control unit 100 controls the steps in which each process proceeds, the hot air Energy consumed in the supply module, energy consumed in the drying unit 6, the first moisture content information, the second moisture content information, the third moisture content information, the repeated input status to the first pellet manufacturing unit 4, and The status of repeated inputs to the drying unit 6 can be converted into data and transmitted to the monitoring unit 200.

The integrated control unit 100 can predict the moisture content detected in the second moisture detection unit 5 according to the number of passages through the first pellet manufacturing unit 4 based on the first moisture content information, and learn this repeatedly to determine the error rate. It can be reduced. That is, the integrated control unit 100 can calculate the number of passes through the first pellet manufacturing unit 4 and the required heat amount of the hot air supply module until the target moisture content appears in the second moisture content information through repeated learning. , real-time progress can be transmitted to the monitoring unit 200.

In addition, the integrated control unit 100 can predict the moisture content detected by the third moisture content detection unit 7 according to the number of passes through the drying unit 6 based on the second moisture content information, and repeatedly learn this to determine the error rate. It can be reduced. That is, the integrated control unit 100 can calculate the number of passes through the drying unit 6 and the amount of heat used in the drying unit 6 until the target moisture content appears in the third moisture content information through repeated learning, Real-time progress can be transmitted to the monitoring unit 200.

In addition, the integrated control unit 100 can accumulate data by repeating from sludge supply to generating third moisture content information, and the first moisture content information generated by the first moisture content detection unit 2 based on the accumulated data. By obtaining the number of repeated passages of the first pellet manufacturing unit (4) required for one cycle from supply to sludge pellet production, the amount of heat required for the hot air supply module, the number of repeated passages of the drying unit (6), and the drying unit (6) The amount of heat required can be calculated, and the time required to complete one cycle of final pellet production can be calculated.

Figure 1 shows a flowchart showing the flow through each configuration from the supply of sludge according to an embodiment of the sludge pellet manufacturing system capable of controlling moisture content according to the present invention to being manufactured into solidified pellets.

Figure 3 is an algorithm flowchart showing the process from sludge supply to solidified sludge pellet production according to an embodiment of the sludge pellet production system capable of controlling moisture content according to the present invention.

As described above and as shown in FIGS. 1 and 3, a suitable application example according to an embodiment of the sludge pellet production system capable of controlling moisture content according to the present invention is as follows.

First, sludge is prepared to be input into a process line for producing solidified sludge pellets.

The supply unit 1 injects sludge into the production line through a pump. And the first moisture content detection unit 2 measures the moisture content of the input sludge, generates first moisture content information, and transmits it to the integrated control unit 100.

Next, the sludge is stirred through the stirring unit (3) and the overall viscosity is formed without lumps.

Next, the sludge passes through the first pellet production unit 4 and is compressed to remove a certain amount of moisture. At this time, the hot air supply module connected to one side of the first pellet manufacturing unit 4 can assist in removing moisture from the sludge. Then, the second moisture content information is obtained through the second moisture content detection unit (5), and when necessary, it is reintroduced into the first pellet manufacturing unit (4) to remove a certain amount of moisture.

Next, the sludge is put into the drying unit 6 and dried by hot air. The drying unit 6 is provided with five modules and serves to remove moisture and bad odor from the sludge. And the third moisture content information is obtained through the third moisture content detection unit (7).

Finally, the sludge is input into the second pellet production unit 8, and the solidified final pellet product is produced.

Sludge pellets manufactured in this way can be used as a low-cost replacement for wood pellets used in thermal power plants, and can reduce environmental pollution caused by sludge disposal, so they can be used as an eco-friendly energy resource.

As such, a person skilled in the art will understand that the technical configuration of the present invention described above can be implemented in other specific forms without changing the technical idea or essential features of the present invention.

Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the claims described later rather than the detailed description above, and the meaning and scope of the claims and their All changes or modified forms derived from the equivalent concept should be construed as falling within the scope of the present invention.

100: Integrated control department
200: monitoring unit
1: Supply department
2: First moisture content detection unit
3: stirring part
31: Stirrer cover
4: 1st pellet manufacturing department
41: Drive module
42: screw module
5: Second moisture content detection unit
6: drying section
61: Air supply module
62: first heating module
63: 2nd heating module
64: Conveyor module
65: Exhaust module
7: Third moisture content detection unit
8: Second pellet manufacturing department

Claims (5)

In the sludge pellet manufacturing system capable of controlling moisture content applied to a production line for manufacturing pellets using sludge,
An integrated control unit that monitors the water content of sludge and controls the sludge transport path;
A supply unit including a pump that supplies sludge;
a first moisture content detection unit that measures the moisture content of the sludge supplied by the supply unit and generates first moisture content information;
A stirring unit for stirring the sludge;
A first pellet manufacturing unit that applies pressure to the sludge to remove a certain amount of moisture and reduce the sludge volume to pelletize it;
a second moisture content detection unit that measures the moisture content of the sludge pelletized in the first pellet manufacturing unit and generates second moisture content information;
A drying unit that removes moisture from sludge using hot air;
a third moisture content detection unit that measures the moisture content of the sludge that has passed through the drying unit and generates third moisture content information; and
It includes a second pellet manufacturing unit that produces solidified pellets using dried sludge,
The integrated control unit controls the production line to reintroduce the sludge to the first pellet manufacturing unit when the second moisture content information includes a moisture content above a certain level,
The integrated control unit controls the production line to reintroduce the sludge to the drying unit when the third moisture content information includes a moisture content above a certain level,
The drying unit includes an air supply module that supplies air to the top of the dryer frame; a first heating module provided at an upper portion inside the frame and heating air with a plurality of heat pipes; a second heating module provided below the first heating module and heating air with a plurality of heat pipes; A conveyor module provided at the bottom of the second heating module and provided as a conveyor containing spread sludge; And an exhaust module that sucks air from the space at the bottom of the conveyor module and discharges it to the outside of the frame,
The first pellet manufacturing unit further includes a hot air supply module connected to one side and supplying hot air to the inside,
The stirring unit and the first pellet manufacturing unit are structural devices continuously connected, and the sludge continuously passes through the first pellet manufacturing unit after stirring, and the stirring unit includes a stirring unit cover, a drive module for driving the device, and sludge. A sludge pellet manufacturing system capable of controlling moisture content, comprising a screw module for compressing and transporting. delete delete delete delete