KR102343343B1 - Drying system for waste sludge that combines optimal drying rate and mass treatment capacity - Google Patents

Abstract

The present invention relates to a drying device system for waste sludge having optimum drying efficiency and mass processing capacity. The drying device system for waste sludge having optimum drying efficiency and mass processing capacity of the present invention includes a storage unit, a transfer unit, a molding unit, a drying system unit, a control unit, and a loading unit. According to the present invention, moisture inside pellets is rapidly discharged to the outside.

Description

Drying system for waste sludge that combines optimal drying rate and mass treatment capacity

The present invention relates to a drying apparatus system for waste sludge that has both optimal drying efficiency and mass treatment capability, and more specifically, various types of manure, compost, sewage sludge, food waste, etc. By composing various types of waste or waste sludge such as miniaturized pellets into pellets, the moisture inside the small pellets can be quickly discharged to the outside while allowing the hot air to flow effectively between the miniaturized pellets with fast drying power. In addition, by drying various types of sludge with high moisture content according to the set moisture ratio, a large amount of sludge is dried in a short time under the best conditions, and at the same time, the dried pellets are used as energy sources such as power generation materials and organic fertilizers, etc. It relates to a drying system for waste sludge that has the optimal drying efficiency and mass processing capacity configured to be recycled as useful resources of

In general, sludge is a kind of industrial waste, and it refers to the sediment in the water and sediment in the steam boiler, sediment from oil, semi-solid waste from various chemical treatment processes, etc. It is also called sludge as it refers to the solid material that has settled in the suspended matter when the sewage is sedimented in a water tank or water tank. In addition, sludge generated in various industrial fields such as industrial waste, sewage, compost, and manure has serious environmental pollution and adverse effects on the human body. However, since the sludge contains a significant amount of moisture, it is necessary to properly remove the moisture and recycle it. In other words, in order to properly process and recycle sludge, water must first be dehydrated and dried, but low-cost dewatering technology is not established, which consumes a lot of money, has low drying efficiency, and takes a lot of time. It is insufficient.

For example, according to Korean Utility Model Registration No. 0185258, 'while passing through a belt operated in a predetermined trajectory by a plurality of rollers, wastewater is accumulated in the lower part of the gas, and sludge in the wastewater is transported along the belt; a transport device having a belt to transport the sludge that has been transported on the belt of the dewatering device and accumulate it in a hopper; In the industrial dewatering system consisting of, etc., a sludge drying apparatus for an industrial dewatering system, characterized in that a sludge drying apparatus 300 equipped with a heating means 330 is installed in the transfer apparatus 200 .

However, since the sludge drying device of the industrial dehydration system described above is a technology for drying sludge only with a heating furnace through a heating means, it takes a long time to dry as well as generates a lot of cost.

As another example, according to Korean Patent Registration No. 2027656, 'In a high-frequency induction heating device that is driven by electricity generated from a solar cell module and simultaneously heats N cylinders constituting a multi-drying drum to a high temperature, high-frequency current is generated a first induction coil 6 coupled to the device 61 and installed to form a concentric with the first cylinder by placing the first cylinder 1 which is a ferromagnetic body inside the induction coil; It is inserted into the first induction coil and the first cylinder, has an outer diameter smaller than the inner diameter of the first induction coil, is installed with the (N-1)th cylinder (2) inserted into the induction coil, and a high-frequency current generator 71 ) and the (N-1) induction coil (7) coupled to; It is inserted into the (N-1)th induction coil and the (N-1)th cylinder, has an outer diameter smaller than the inner diameter of the (N-1)th induction coil, and inserts the Nth cylinder (3) into the induction coil. The N-th induction coil 8 is installed and coupled to the high-frequency current generator 81; Presents an induction heating device for multiple drying drums of a sludge drying device using sunlight, characterized in that they are multi-arranged to form concentricity.

However, in the case of the aforementioned Korean Patent Registration No. 2027656, that is, the induction heating device for multiple drying drums of the sludge drying device using sunlight can bring about cost savings because the operation is performed using sunlight, but in sunny weather, etc. In this regard, not only inconveniences such as having to carry out work, but also drying efficiency is not very high, there is a disadvantage.

Korea Registered Utility Model No. 0185258 "Sludge drying device for industrial dewatering system" Korean Patent No. 2027656 "Induction heating device for multiple drying drums of sludge drying device using sunlight"

The purpose of the present invention for fundamentally improving the problems of the prior art is various types of waste or waste sludge such as living sludge, industrial wastewater sludge and waste chemicals sludge) into miniaturized pellets so that hot air flows effectively between the miniaturized pellets with fast drying power, and the moisture inside the small pellets can be quickly discharged to the outside, and it has a high moisture content. By drying various types of sludge according to the set moisture ratio, a large amount of sludge is dried in a short time under the best conditions, and at the same time, the dried pellets can be recycled as energy sources such as power generation materials and useful resources such as organic fertilizers. It is intended to provide a drying system for waste sludge that combines optimal drying efficiency and mass processing capability.

According to the present invention for achieving the above object, in forming a drying apparatus system for waste sludge for drying and recycling various sludges: The various sludges are brought in as basic raw materials and received first, and then odor generated from these sludges A odor removal unit with a function to relieve and remove odors is provided, but the odor removal unit is fixed on the upper side of the inside and allows the odor removal liquid to be evenly sprayed on the various sludge accommodated. a storage unit having a mixer to make it possible; A first quantitative feeder for flowing a predetermined amount of the sludge received from the storage unit and a crusher for crushing the sludge supplied by a predetermined amount and a paddle device for moving the pulverized sludge to crush and transport the sludge accommodated in the downstream end of the storage unit a transfer unit; a molding unit for accommodating a certain amount of the transferred sludge at the downstream end of the conveying unit and then pressurizing the sludge to form pellets; A multi-layered space part communicating in a zigzag form while continuing from the upper layer to the lower layer to enable drying while receiving the pellets at the downstream end of the forming part, and transferring the pellets in a state in which the pellets are seated in this space After forming a boiler equipped with a blower for continuous heating to enable individual drying of miniaturized pellets in the space of the belt and each layer, and an exhaust gas device that sequentially removes moisture from this space and moisture contained in the pellets a drying system unit having a heat exchanger using waste heat; When the water content of the sludge accommodated in the connection pipe and the storage unit connected to communicate with each other between one end located between the storage unit and the transfer unit and the other end located downstream of the drying system unit is 60% or more by the measurement of the sensor, it is dried a control unit having a control unit for transferring and mixing the pellets through a connection pipe to maintain a low moisture content; And it characterized in that it comprises a loading unit to enable the external discharge through the discharge cyclone unit after loading and storing the dried pellets at the downstream end of the drying system unit in the cyclone unit.

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In addition, a second quantitative feeder capable of accommodating a certain amount of sludge is formed in the molding unit according to the present invention, and then a perforated plate that is discharged by compression to form pellets and a cutting blade for cutting the sludge discharged to a predetermined size It is characterized in that it is provided.

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On the other hand, prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor should understand the concept of the term in order to explain his invention in the best way. Based on the principle that it can be appropriately defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

According to the present invention, various types of waste or waste sludge such as living sludge such as various manure, compost, sewage sludge, food waste, industrial wastewater sludge, and waste chemical substances are composed into miniaturized pellets. This allows the water inside the small pellets to be quickly discharged to the outside while allowing the hot air to flow effectively between the miniaturized pellets with fast drying power, and to dry various types of sludge with high water content according to the set moisture ratio. By doing so, a large amount of sludge is dried under the best conditions in a short time, and at the same time, the dried pellets can be recycled as energy sources such as power generation materials and useful resources such as organic fertilizers.

1a is an overall cross-sectional view of a storage unit and a transfer unit of a drying apparatus system for waste sludge according to the present invention;
Figure 1b is syeongseong male part and the drying part and the system control portion whole cross-sectional view of the drying apparatus for sludge system according to the invention
2a to 2e are main structural cross-sectional views of the drying apparatus system for waste sludge according to the present invention;
3A to 3D are side cross-sectional views showing main components of a drying apparatus system for waste sludge according to the present invention;
4 is a cross-sectional view of a storage unit of a drying apparatus system for waste sludge according to an embodiment of the present invention;

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a drying apparatus system for collecting, drying, and recycling various waste sludges (1). ) · The loading part 60 and the like are the main components.

In the storage unit 10 according to the present invention, the various sludges (1) are brought in as basic raw materials and received first, and then the odor removal unit 11 having a function to alleviate and remove odors generated from these sludges (1). to provide That is, various types of waste sludge 1 obtained in various industrial fields are transferred to and accommodated in the internal space of the storage unit 10 through a transportation means 2 and the like. These various sludges (1) can be obtained from various fields such as industrial waste, sewage sludge, compost, manure, food waste, etc., industrial waste water sludge, and waste chemical substances as described above. From this high sludge, it is also possible to use sludge having a low water content by drying it first or several times. Since various sludges 1 are brought in and accommodated in the storage unit 10, a lot of odors are generated. do.

In addition, the storage unit 10 has a spray nozzle 12 that is fixed to the upper side of the inside and allows the odor removal solution 13 to be evenly sprayed into the various sludge 1 accommodated therein, the sludge 1 and the odor removal solution 13 . It is characterized in that it further comprises a mixer 14 so that the mixture can be mixed well. That is, the injection nozzle 12 is formed in the storage unit 10 so that it can be evenly sprayed to the lower side while being fixed at the upper side of the inner space, and at this time, the odor generated from the various sludge 1 can be reduced or alleviated. For this purpose, the odor removing liquid 13 can be evenly sprayed. Then, another mixer 14 is formed inside the storage unit 10 and mixed with each other in a manner such as an impeller rotated by a separate motor (not shown), so that the odor generated from various sludges 1 . is effectively removed to enable smoother follow-up work.

In addition, the transfer unit 20 according to the present invention crushes and transports the sludge 1 accommodated in the downstream of the storage unit 10 while flowing a certain amount. The transfer unit 20 serves to transfer the waste sludge 1 from which the odor has been removed from the storage unit 10 described above to the forming unit 30 to be described later. At this time, the forming unit 30 performs a smooth operation. To make this possible, the sludge 1 is allowed to flow by a certain amount, and after accommodating various types of sludge 1, it is transported in a crushed state to enable work.

And the transfer unit 20 includes a first quantitative feeder 21 for flowing the sludge 1 received from the storage 10 by a predetermined amount, and a crusher 22 for crushing the sludge 1 supplied by a predetermined amount, and It is characterized in that it further comprises a paddle device 23 capable of continuously moving the pulverized sludge (1). Here, in the case of the paddle device 23 described above, it is of course possible to substitute a device with equivalent performance, such as a ball screw. In the case of the transfer unit 20, since the amount of sludge 1 accommodated in the storage unit 10 may be tens to hundreds of tons, when a large amount of sludge 1 is introduced into the storage unit 10, it is difficult to work This may occur or it may not work smoothly, so that the pulverized sludge 1 through the first quantitative feeder 21 is linked with a separate sensor so that only an appropriate amount can be transferred, and also the supplied sludge 1 ), when crushed to an appropriate size through the crusher 22 for finely pulverizing be able to Then, the crushed sludge 1 is naturally transferred to the molding unit 30 through the rotating paddle device 23 .

On the other hand, the molding unit 30 according to the present invention receives a certain amount of the sludge 1 transferred from the downstream end of the conveying unit 20 and pressurizes the pulverized sludge 1 to form small pellets 31. . The molding unit 30 is finely formed in the form of pellets 31 by pressing the sludge 1 supplied from the transfer unit 20 . The main reason for forming in the form of miniaturized pellets 31 is between the pellets 31 formed in a size of about 8 mm or less when drying the pellets 31 through the drying system unit 40 in succession between the drying hot wind and wind. This is because, as it penetrates one after another, the drying efficiency of the pellets 31 can be maximized, so that the drying rate can be improved and the drying time can be greatly reduced.

And a second metering feeder 33 is formed in the molding unit 30 to accommodate a certain amount of sludge 1, and then discharged by compression to form a pellet 31. A perforated plate 32 and a perforated plate It is characterized by having a cutting blade (34) for cutting the sludge (1) discharged to (32) to a predetermined size. Since it is preferable that the pellets 31 are formed in a size of about 8 mm or less as described above, the molded part 30 is inputted in an appropriate amount through the second quantitative feeder 33, and then the sludge 1 is compressed. When discharged to the perforated plate 32 by (壓搾), the rotating cutting blade 34 cuts the sludge 1 at once to form pellets 31 of about 8 mm or less in size. And when the moisture content of the sludge 1 is high or too low, the pellet 31 becomes difficult to form, so that the moisture content can be first adjusted through the adjusting unit 50 to be described later, so that the pellet 31 composition is smooth. In addition, there is an effect that the drying efficiency of the drying system unit 40 is also greatly increased.

In addition, in the drying system unit 40 according to the present invention, after receiving the pellets 31 from one end of the forming unit 30, sequential drying is possible. This drying system unit 40 receives a large amount of pellets 31 formed in a size of about 8 mm or less in the forming unit 30 and then moves slowly to sequentially dry them, at this time about 8 mm or less as described above. As the pellets 31 formed in the size of are dried, the drying hot air and wind penetrate one after another between the pellets 31, thereby maximizing the drying efficiency.

At this time, the drying system unit 40 has a multi-layered space 41 that is connected in a zigzag form while moving from the upper layer to the lower layer to enable drying while sequentially moving in a state containing the pellets 31 and , A blower that continuously heats the pellets 31 to allow individual drying of the miniaturized pellets 31 in the conveying belt part 42 and the space 41 of each layer to transfer in a state in which the pellets 31 are seated in the space 41 In the process of sequentially removing moisture contained in the boiler 44 with the boiler 44 and the pellets 31 in this space 41, and passing the high-temperature exhaust gas through the exhaust gas device 46 It is characterized in that the heat exchanger 45 is further provided as a way to maximize energy efficiency.

As such, in the drying system unit 40, a multi-layered space 41 is formed from the upper layer to the lower layer to enable drying while sequentially moving in a state containing the pellets 31, and a conveyor in the space 41 of each layer. Conveyor belt parts 42 in the form of each are installed, at this time, the transport belt part 42 transports the seated pellets 31 in opposite directions for each layer so that they can fall to the lower layer in a narrow space. It allows for long-term movement and drying at the same time. And a boiler 44 having a blower 43 for continuous heating to enable individual drying of the pellets 31 is formed in the space 41 of each floor to perform hot air drying, and at this time, the high temperature of the boiler 44 is introduced into the inside using the blower (43). And, although hot air drying is performed on the miniaturized pellets 31 through the blower 43 and the boiler 44, different drying efficiencies are secured for each space 41 of each floor. This ensures a desired drying ratio with the uppermost space 41 of the drying system unit 40 that is first introduced from the molding unit 30 as the pellets 31 are transferred from the upper to the lower layer conveying belt unit 42 . This is because the drying rates of the pellets 31 of the lowermost space 41 are different from each other. That is, the moisture content of the pellets 31 in the uppermost space 41 of the drying system unit 40, which is first introduced from the molding unit 30, is high (around 60%), and the lowermost space 41 The pellets 31 of the drying system 40 are pellets 31 having a recyclable level of moisture content (water content of about 3 to 8%) due to hot air drying inside the drying system unit 40, and used as an energy source in power plants, etc. Therefore, the drying rate of the pellets 31 of the uppermost and lowermost spaces 41 will be different. And the drying rate of the pellets 31 that have passed through the drying system unit 40 can be adjusted according to the recycling purpose. Of course it can be adjusted. And while discharging the high-temperature moisture generated from the sludge 1 in the space 41 to the outside through the exhaust gas device 46, a heat exchanger 45 is installed in the discharge passage of the boiler 44 By raising the temperature at the inlet of the inlet air to effectively remove the moisture contained in the pellets 31, higher drying efficiency using waste heat can be secured.

In addition, the control unit 50 according to the present invention is a configuration of a function for appropriately adjusting the water content of the sludge 1 accommodated in the storage unit 10, and a predetermined amount of the pellets 31 that have already been dried are stored in the storage unit ( 10) and at the same time it is further mixed with the basic raw material sludge (1) first accommodated in the storage unit (10). That is, when the pellets 31 are introduced from the transfer unit 20 to the forming unit 30 in a state with a lot of moisture (especially when the pellets having a water content of 60% or more are introduced), the pellet 31 molding is properly performed. The pellet 31 of the storage unit 10 is difficult to transport or the pellet 31 in the storage unit 10 is difficult to transfer to the drying system unit 40, or the drying efficiency is greatly reduced and the recycling value of the pellets 31 is lost. It is preferable to make the water content into about 60% or less. Furthermore, in the case of the basic raw material sludge 1 accommodated for the first time in the storage unit 10, the moisture content is often 60% or more, and since the types of sludge 1 are also diverse, it is difficult to match the moisture content of around 60%. A part of the dried pellets 31 that have finally passed through the drying system unit 40 are re-injected into the storage unit 10, mixed with the sludge 1 received for the first time, and then the moisture content is set to 60% or less. When it is transferred to the transfer unit 20 and the molding machine 30, it is possible to obtain the pellets 31 having a desired drying rate (3 to 8% or 8 to 20%, etc.) without difficulty, and the value of recycling is also increased. And it is difficult to estimate the amount of the final dried pellets 31 that have passed through the drying system unit 40 to be re-injected into the storage unit 10 depending on the situation of the basic raw material sludge 31, but the dried pellets 31 It is thought that about 10 to 20% of the amount is used for re-input, and the other dry pellets 31 can be used as a renewable resource. As a result, the dry pellets 31 partially perform a role of lowering the moisture content of the sludge 1 received for the first time.

In addition, in the control unit 50, one end positioned between the storage unit 10 and the transfer unit 20 and the other end located downstream of the drying system unit 40 are connected to each other so as to communicate with each other, a connecting pipe 51 connected to each other. ), when the moisture content of the sludge 1 accommodated in the storage unit 10 becomes about 60% or more by measurement of a sensor, etc., the dried pellets 31 are transferred through the connection pipe 51 Thus, to maintain a low moisture ratio, the other dry pellets 31 are discharged to the outside through the cyclone part 52 and the loading part 60, etc. to be recycled. That is, when the water content ratio of the sludge (1) of the storage unit 10 and the transfer unit 20 after installing the connection pipe 51 in the control unit 50 is 60% or more by a sensor, etc. The dry pellets 51 are additionally added through the connection pipe 51 of the control unit 50 , and the other dry pellets 31 are discharged to the discharge cyclone unit 61 . Therefore, the composition of the pellets 31 in the molding unit 30 by re-injecting the dry pellets 31 into the storage unit 10 through the connection pipe 51 of the control unit 50 to adjust the moisture ratio to 60% or less. While this is smooth, the drying efficiency of the drying system unit 40 is also greatly increased.

And in the loading unit 60 according to the present invention, a cyclone unit 52, a discharge cyclone unit, and a separate pipe are installed at the downstream end of the drying system unit 40, and then the dried pellets 31 are discharged to a cyclone. To be able to load in the section (52). This loading unit 60 enables external delivery through the transportation means 2 after loading the dried pellets 31 discharged from the drying system unit 40 . In addition, it goes without saying that the above-described cyclone unit 52 and the control unit 50 may be connected to each other through a separate pipe, etc. to enable alternate storage of the dried pellets 31 . In the end, as the sludge (1) discharged from various industrial fields is reborn as excellent dry pellets (31) through the development of a drying system for waste sludge that has the optimum drying efficiency and mass processing capability, serious environmental pollution is reduced and It will be said that there is an action and effect that allows it to be utilized as a resource.

According to the present invention, various types of waste or waste sludge such as living sludge such as various manure, compost, sewage sludge, food waste, industrial wastewater sludge, and waste chemical substances are composed into miniaturized pellets. This allows the water inside the small pellets to be quickly discharged to the outside while allowing the hot air to flow effectively between the miniaturized pellets with fast drying power, and to dry various types of sludge with high water content according to the set moisture ratio. By doing so, a large amount of sludge is dried under the best conditions in a short time, and at the same time, the dried pellets can be recycled as energy sources such as power generation materials and useful resources such as organic fertilizers.

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

1: Sludge 2: Transportation
10: storage unit 11: odor removal unit
12: spray nozzle 13: odor removal liquid
14: mixer 20: transfer unit
21: first metering feeder 22: crusher
23: paddle device 30: forming part
31: pellet 32: perforated plate
33: second metering feeder 34: cutting blade
40: drying system unit 41: space unit
42: transfer belt part 43: blower
44: boiler 45: heat exchanger
46: exhaust gas device (including combustor) 50: control unit
51: connector 52: cyclone part
60: loading unit 61: discharge cyclone unit

Claims (6)

In forming a drying system for waste sludge for drying and recycling various sludge:
The various sludges (1) are brought in as basic raw materials and received first, and then the odor removal unit 11 having a function to alleviate and remove odors generated from these sludges 1 is provided, and the odor removal unit 11 can be mixed well by uniformly mixing the spray nozzle 12, which is fixed on the upper side of the inside and allows the odor removal solution 13 to be evenly sprayed on the various sludge 1 accommodated, and the sludge 1 and the odor removal solution 13 a storage unit (10) having a mixer (14) to enable;
A first fixed quantity feeder 21 and a fixed quantity for crushing and transporting the sludge 1 accommodated in the downstream end of the storage unit 10 while flowing a fixed quantity. a transfer unit 20 having a crusher 22 for pulverizing the supplied sludge 1 and a paddle device 23 for moving the pulverized sludge 1;
a molding unit 30 for accommodating a certain amount of the sludge 1 transferred to the downstream end of the conveying unit 20 and pressing the sludge 1 to form pellets 31;
A multi-layered space 41 communicating in a zigzag form while moving from the upper layer to the lower layer to enable drying while receiving the pellets 31 at the downstream end of the forming section 30, and this space section A blower 43 for continuous heating so that individual drying of the miniaturized pellets 31 is possible in the transport belt part 42 and the space part 41 of each layer for transporting in a state where the pellets 31 are seated on (41). After forming a boiler 44 provided with an exhaust gas device 46 that sequentially removes moisture in the space 41 and moisture contained in the pellets 31, a heat exchanger 45 using waste heat a drying system unit 40 having;
A connecting pipe 51 and a storage unit 10 that connect one end positioned between the storage unit 10 and the transfer unit 20 and the other end positioned downstream of the drying system unit 40 to communicate with each other. When the moisture content of the accommodated sludge (1) is 60% or more by the measurement of the sensor, the dry pellets 31 are transported through the connection pipe 51 and mixed to maintain a low moisture content. A control unit having a control unit 52 (50); and
After loading and storing the dried pellets 31 at the downstream end of the drying system unit 40 in the cyclone unit 52, it is possible to externally discharge the dried pellets 31 through the discharge cyclone unit 61 installed on one side. A drying apparatus system for waste sludge having optimum drying efficiency and mass processing capability, characterized in that it includes; delete delete According to claim 1,
A second metering feeder 33 capable of accommodating a certain amount of the sludge 1 is formed in the molding unit 30, and then discharged by compression to form a pellet 31. A perforated plate 32 and a perforated plate 32 A drying device system for waste sludge with optimum drying efficiency and mass processing capability, characterized in that it has a cutting blade 34 that cuts the sludge 1 discharged into a predetermined size. delete delete

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