KR102284184B1 - Dry product moisture content selection discharge system of disk dryer - Google Patents

Abstract

An object of the present invention is to provide a system for selecting and discharging a dry product moisture content of a disk dryer that allows the product moisture content of the disk dryer to be selectively discharged.
That is, the present invention is a dryer 100 provided with a rotating disk 130 so as to dry the dewatered sludge input through the inlet 110 while stirring and transport to discharge to the outlet 120; a dried sludge recirculation unit 200 provided to recirculate the final dried sludge discharged to the outlet 120 of the dryer 100 to the inlet 110 side of the dryer 100; At least one sludge product discharge unit disposed at a desired moisture content point in the sludge moisture content section formed in stages from the inlet 110 side to the outlet 120 point of the dryer 100 to discharge the sludge product having a target moisture content (300); and a control unit 400 provided to adjust the balance between the amount of sludge retained in the dryer 100, the final dry sludge recirculation amount, and the sludge product production volume.
If the dry product moisture content selective discharge system of the disk dryer is used, the present invention discharges the sludge product through the product discharge part that can control the discharge amount in the disk dryer drying section, regardless of the dry sludge moisture content by the dryer 10% ~ 30% range It has the advantage of being able to select and produce sludge products corresponding to the target moisture content in

Description

Dry product moisture content selection discharge system of disk dryer

The present invention relates to a system for selectively discharging a dry product moisture content of a disc dryer. More specifically, the present invention relates to a system for selectively discharging a dry product moisture content of a disc dryer that allows the product moisture content of the disc dryer to be selected and discharged as needed.

In general, in the existing disk drying system to which the dried sludge recirculation process is applied, the moisture content of the finally discharged sludge can be produced only with a moisture content of 10% or less, which is the same as that of the recirculated sludge. This is not a problem when dry sludge is directly used as fuel in thermal power plants or as fuel for burning cement. As a result, there is a problem of excessive scattering dust during transport and use, and it is difficult to control the combustion rate due to the rapid combustion reaction that occurs when powdery dry sludge is introduced into the combustion furnace.

Accordingly, in Patent Registration No. 10-2037447 disclosed in the prior art, the sludge storage tank and the sawdust storage tank and the sewage sludge stored in the sludge storage tank and the sawdust stored in the sawdust storage tank are supplied and mixed, and a mixer and a pellet forming part for forming pellets, a first vacuum drying unit for transferring the sludge to the mixer after vacuum drying the first; a second vacuum drying unit for second vacuum drying after mixing the sewage sludge and sawdust vacuum dried by the first vacuum drying unit again; a vacuum generator for transmitting the vacuum pressure of the first vacuum drying unit and the second vacuum drying unit; a dry steam supply unit for supplying dry steam to the first vacuum drying unit and the second vacuum drying unit; a condensed water filtration unit for filtering condensed water; The first malodor suction pipe provided in the sludge storage tank, the second malodor suction pipe provided in the sawdust storage tank, and the first malodor suction pipe and the second malodor suction pipe are connected to the first malodor suction pipe and the second malodor suction pipe. A technology that is provided with an odor filtration unit that filters the air has been previously presented.

In addition, in Patent Registration No. 10-1779136, which is another prior art, a sludge preparation step for preparing sewage sludge, a wood material preparation step for preparing a wood material including at least one of wood chips, sawdust, and waste wood, and sewage sludge The sludge storage step of transporting and storing the wood material in the first hopper, the wood material storage step of transporting the wood material and storing it in the second hopper, and transferring the sewage sludge from the first hopper and the wood material from the second hopper to the transfer conveyor. A technology including a mixing step of mixing in a mixer to make a formulation, and a pellet drying molding step of manufacturing sludge pellets by transferring the formulation to a conveying conveyor and molding while drying using compression heat and friction heat generated during processing; has been

This prior art is to process sludge in pellet form and use it as fuel, solve the problem of dust scattering that occurs during transportation and storage due to pelletization of sludge, and control combustion reaction when used as fuel compared to dry sludge in powder form. It is expected to be useful in the future due to its ease of use.

However, in order to apply the sludge pelletizing process, the moisture content of the dried sludge must be supplied at 10% to 20% depending on the pellet processing facility. An additional process is required to raise it to 10% or more, so even though a lot of energy is put into drying the sludge, the inefficient problem of adding moisture to the sludge in the downstream process, and the problem of complicating the equipment with the addition of a spray water facility there is. In addition, even when the dewatered sludge is mixed to adjust the moisture content of the dried sludge, the degree of mixing is not uniform and the pelletizing quality of the product is deteriorated.

On the other hand, in the drying system to which the existing dried sludge recirculation process is applied, the product moisture content is equally discharged below the moisture content of the recirculated sludge of 10% or less. There is a problem in that the moisture content of the dryer is increased, and thus the driving load of the dryer is rapidly increased, leading to a situation in which normal operation is difficult. For this reason, in the sludge dryer to which the existing dry sludge recirculation process is applied, there was a limit that could not cope with the need for various dry moisture content ranging from 10% to 30% for the purpose of pelletizing in the downstream process.

KR 10-2037447 B1 (2019.10.22.) KR 10-1779136 B1 (2017.09.11.)

In the present invention, a new technology was invented to solve the problems of the prior art, and one or more product discharge units are placed at the desired moisture content point among the sludge moisture content section formed from the dewatered sludge input side in the dryer to the final dry sludge discharge point. It is an object of the present invention to provide a selective discharge system for a dry product moisture content of a disk dryer capable of selectively producing sludge moisture content in various ways.

To this end, a recirculation unit composed of a circulation conveyor and a mixing conveyor is installed in the disk dryer, and the rear end process (for example, pelletization It is an object of the present invention to provide a dry product moisture content selective discharge system of a disk dryer capable of producing a sludge product with a predetermined moisture content required in the process).

Although not described separately, other objects within the scope that can be inferred in consideration of the specific contents and claims for carrying out the following invention are also included in the overall task of the present invention.

As a specific means for solving the problems of the present invention, in the present invention, a dry product moisture content selective discharge system of a disk dryer is configured, but the dehydrated sludge input through the inlet 110 is dried while stirring and transported and discharged to the outlet 120 . Dryer 100 provided with a rotating disk 130; a dried sludge recirculation unit 200 provided to recirculate the final dried sludge discharged to the outlet 120 of the dryer 100 to the inlet 110 side of the dryer 100; At least one sludge product discharge unit disposed at a desired moisture content point in the sludge moisture content section formed in stages from the inlet 110 side to the outlet 120 point of the dryer 100 to discharge the sludge product having a target moisture content (300); and a control unit 400 provided to adjust the balance between the amount of sludge retained in the dryer 100, the final dry sludge recirculation amount, and the sludge product production volume.

At this time, the recirculation unit 200 is connected to the outlet 120 of the dryer 100 to circulate and transport the final dried sludge, the circulation conveyor 210 , and the final dried sludge and dewatered sludge supplied through the circulation conveyor 210 . It is characterized in that it comprises a mixing conveyor 220 for supplying the mixed and transported to the inlet 110 of the dryer 100.

In addition, the circulation conveyor 210 is connected to a horizontal conveyor 212 for discharging the dried sludge discharged from the outlet 120 of the dryer 100 to the side of the dryer 100, and the lower part of the horizontal conveyor 212 It is composed of a vertical conveyor 214 for supplying the dried sludge transported laterally to the mixing conveyor 220 disposed on the inlet 110 upper part, and the dewatering cake (dehydrated sludge) supplied to the mixing conveyor 220 is It is characterized in that it is supplied in a dehydrated state through a separate dehydrated cake drying facility.

In addition, the product discharge unit 300 is connected to the product discharge port 310 and the product discharge port 310 disposed at least one or more in the longitudinal direction on the bottom surface of the dryer 100 to discharge the sludge product having a target moisture content and the sludge It is characterized in that it includes a product conveyor 320 for controlling the product discharge, and a moisture content detection unit 330 installed on any one or more of the product outlet 310 and the product conveyor 320 to measure the moisture content of the sludge product.

According to the specific means for solving the above-mentioned problems, the present invention discharges the sludge product through the product discharge part that can control the discharge amount in the drying section of the disk dryer, so that the target in the range of 10% to 30% regardless of the moisture content of the dried sludge by the dryer It has the effect of selecting and producing sludge products corresponding to the moisture content.

For this reason, in the case of pelletizing dry sludge, there is no need for a spray water facility at the rear end of the dryer, and the sludge that has passed through the dryer can be pelletized directly. The expected effect is a great invention.

1 is a schematic diagram showing a dry product moisture content selective discharge system of the disk dryer provided in the present invention.
Figure 2 is a block diagram showing a dry product moisture content selective discharge system of the disk dryer provided in the present invention from the front.
3 is a block diagram showing a side view of a dry product moisture content selective discharge system of a disk dryer according to an embodiment of the present invention;
4 is a block diagram showing in a plan view a system for selecting and discharging a dry product moisture content of a disk dryer according to an embodiment of the present invention;
5 is a configuration diagram schematically illustrating a dryer single operation mode and a recycling circulation mode of a dry product moisture content selective discharge system of a disk dryer according to an embodiment of the present invention;

Hereinafter, the present invention will be described in more detail according to specific embodiments of the accompanying drawings. The following drawings according to a configuration embodiment of the present invention are examples for specifically explaining the configuration and effects, and thereby the technical scope of the present invention is not narrowly limited or changed. Therefore, it will be natural for those skilled in the art that various modifications can be made within the scope of the technical spirit of the present invention based on these embodiments.

Technical terms used in this specification are terms selected in consideration of functions in embodiments, and the meaning of the terms may vary according to specific embodiments of the present invention. And throughout the specification, when a part is "connected" with another part, this includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. do.

1 is a schematic diagram showing a dry product moisture content selective discharge system of a disk dryer provided in the present invention, and FIG. 2 is a configuration diagram showing a dry product moisture content selective discharge system of a disk dryer according to an embodiment of the present invention from the front am.

The present invention relates to a dry product moisture content selective discharge system of a disk dryer, which places one or more product discharge units at a desired moisture content point in the sludge moisture content section formed from the dewatered sludge input side in the dryer to the final dry sludge discharge point to increase the product sludge moisture content It is selected to be produced according to need and is largely composed of a dryer 100 , a dry sludge recirculation unit 200 , a sludge product discharge unit 300 , and a control unit 400 .

The dryer 100 according to the present invention is provided with a rotating disk 130 so that the dewatered sludge input through the inlet 110 is dried while being stirred and transported inside and discharged to the outlet 120 .

The dryer 100 is a conventional disk dryer in which a rotating disk 130 is installed inside a drying drum heated by a heat source, and a plurality of fixed blades are installed to correspond between the rotating disks 130 .

The dewatered sludge is put into the inlet 110 disposed on one side of the upper part of the dryer 100, and the dewatered sludge is stirred and dried while being transported in the longitudinal direction of the dryer 100 on the rotating disk 130 and provided at the other end. It is discharged through the outlet (120).

Meanwhile, referring to FIG. 1 , the air inside the dryer 100 is introduced into the dry exhaust gas dust collector 500 , and the fine sludge contained in the air is separated from the dry exhaust gas dust collector 500 and a dry sludge recirculation unit 200 to be described later. ) is recovered and processed by the circulation conveyor 210 of the.

This is to minimize the treatment cost because a treatment facility for separately treating the collected fines is unnecessary by stirring the fine particles collected in the cyclone dust collector with the dewatered sludge. In addition, since the fine dust collected in the dust collector has a moisture content of 10% or less, it is possible to provide functionality to more finely adjust the moisture content of the product by putting it into the recirculation unit 200 .

As such, as the dewatered sludge is stirred and moved by the rotating disk 130 inside the dryer 100 and dried, the moisture content is the highest at the input 110 side of the dryer 100, and is gradually dried inside and finally dried. At the outlet 120 from which the sludge is discharged, the moisture content is the lowest.

In the present invention, in this conventional dryer 100 in which the sludge moisture content for each section is formed differently between the inlet and the outlet, the product discharge unit 300 to be described later is placed at the desired moisture content point to select and produce the product sludge moisture content in various ways. provided

3 is a block diagram showing a side view of a dry product moisture content selective discharge system of a disk dryer according to an embodiment of the present invention, and FIG. 4 is a plan view thereof.

The dried sludge recirculation unit 200 according to the present invention is provided to collect the final dried sludge discharged to the outlet 120 of the dryer 100 and recirculate it to the inlet 110 of the dryer 100 .

Specifically, the recirculation unit 200 includes a circulation conveyor 210 connected to the outlet 120 of the dryer 100 to circulate and transport the final dried sludge, and the final dried sludge and dewatered sludge supplied through the circulation conveyor 210 . and a mixing conveyor 220 for supplying the mixed transport to the inlet 110 of the dryer 100 .

2 to 4, the circulation conveyor 210 is a horizontal conveyor 212 for discharging the dried sludge discharged from the outlet 120 of the dryer 100 to the side of the dryer 100, and this horizontal conveyor It is connected to the lower part of the 212 and consists of a vertical conveyor 214 for supplying the laterally transferred dry sludge to the mixing conveyor 220 disposed above the inlet 110.

And the outlet of the mixing conveyor 220 is connected to the inlet 110 of the dryer 100, the inlet of the mixing conveyor 220 is connected to the outlet of the vertical conveyor 214 and the supply pump of the dewatering cake drying facility, It is provided to be stirred and moved by a pair of screws rotating in the reverse direction.

And, the dewatering cake (dehydrated sludge) supplied to the mixing conveyor 220 is supplied by a pump in a dewatered state through a separate dewatering cake drying facility, and the mixing conveyor 220 by the vertical conveyor 214 It is provided so that the discharge amount of the final dry sludge injected into the furnace is controlled.

Therefore, in the mixing conveyor 220, drying is completed, and the dried sludge with a low moisture content (for example, about 10% moisture content) and a dehydrated cake with a high moisture content (for example, 70-80% moisture content) are mixed and stirred, and the dryer 100 ) is input to the inlet 110 .

At least one sludge product discharge unit 300 according to the present invention is disposed at a desired moisture content point in the sludge moisture content section formed step by step from the inlet 110 side to the outlet 120 point of the dryer 100, and the target moisture content It is provided to discharge the sludge product with

The product discharge unit 300 is connected to the product discharge port 310 and the product discharge port 310 for discharging the sludge product having a target moisture content, which is disposed on the bottom surface of the dryer 100 in the longitudinal direction and discharges the sludge product. It includes a product conveyor 320 for controlling the product, and a moisture content detection unit 330 installed on any one or more of the product outlet 310 and the product conveyor 320 to measure the moisture content of the sludge product.

At this time, the output of the product conveyor 320 is controlled by the control unit 400 to be described later, and the sludge product production is controlled by the output of the product conveyor 320 . That is, when the output of the product conveyor 320 is increased, the sludge product discharge is increased in proportion thereto.

The moisture content value detected by the moisture content detection unit 330 is transmitted to the control unit 400 to be described later, and the control unit 400 calculates the moisture content value to the dryer 100, the dried sludge recirculation unit 200 and the sludge product discharge unit ( 300) It is provided to control the mixing ratio of the final dried sludge and the dewatered sludge, the mixed sludge input amount, and the sludge product output in a way to control the output.

Meanwhile, in FIG. 1 , the product discharge unit 300 shows a state disposed at one place, and FIG. 2 shows a state disposed at two places, but the position and number of the product discharge unit 300 is not limited thereto. It is also possible to change the sludge to produce a sludge product corresponding to a plurality of target moisture content.

In addition, although the product conveyor 320 is applied to each product outlet 310 of the product discharge unit 300 as shown in FIG. 4 , the present invention is not limited thereto, and a plurality of product outlets on the bottom surface of the dryer 100 . Forming a 310, the product outlet 310 is provided to be opened and closed by a valve, each product outlet 310 is connected to a single product conveyor 320 by a connecting pipe, and any one valve is opened Therefore, it is also possible to selectively produce sludge products with moisture content in various areas.

The control unit 400 according to the present invention is provided to adjust the balance between the sludge retention amount and the final dry sludge recirculation amount and the sludge product production volume in the dryer 100 .

As an example, the moisture content of the dewatered sludge supplied to the inlet 110 of the dryer 100 through the dewatering cake drying facility is 70 to 80%, and the moisture content of the final dried sludge discharged to the outlet 120 of the dryer 100 is Controllable up to 10% or less.

In addition, the control unit 400 may include a dryer load monitoring system for maintaining a constant amount of sludge in the dryer so that the dryer driving load can be maintained in a certain area.

5 is a configuration diagram schematically illustrating a dryer single operation mode and a recycling circulation mode of the dry product moisture content selective discharge system of the disk dryer according to an embodiment of the present invention.

The control unit 400 operates in a dryer independent operation mode to control the moisture content of the final dried sludge by independently operating the output of the dryer 100 as shown in FIG. 5 (a), or mixes the final dried sludge as shown in FIG. 5 (b) It can be controlled so that it can be operated in a recycling circulation mode in which it is put into the conveyor 220 and re-injected into the inlet 110 of the dryer 100 in a mixed state with the dewatering cake.

Here, the recycling circulation mode by the control unit 400 controls the input amount of the final dry sludge transferred to the circulation conveyor 210 through the outlet 120 of the dryer 100 and input to the mixing conveyor 220, thereby dewatering sludge. The water content of the dewatered sludge is primarily lowered by fluidly adjusting the mixing ratio with It is provided to produce a sludge product having a desired moisture content.

As such, as the structure is improved to select and produce product sludge moisture content in various ways by placing one or more product discharge units 300 at a desired moisture content point in the interior section of the dryer 100, the moisture content of the mixed sludge input to the dryer 100 is 10 There is an advantage in that it is possible to variously produce sludge products having a predetermined moisture content required in the downstream process (eg, pelletizing process) in the range from a moisture content of % to 30% to a minimum moisture content of 10% or less.

As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications may be made within the scope not departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the above embodiments, but the protection scope should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

100: dryer
110: inlet 120: outlet 130: rotating disk
200: recirculation unit
210: circular conveyor 212: horizontal conveyor 214: vertical conveyor
220: mixing conveyor
300: sludge product discharge unit
310: product outlet 320: product conveyor 330: moisture content detection unit
400: control unit

Claims (4)

a dryer 100 having a rotating disk 130 therein so as to dry the dewatered sludge input through the inlet 110 while stirring and transport it and discharge it to the outlet 120;
a dried sludge recirculation unit 200 provided to recirculate the final dried sludge discharged to the outlet 120 of the dryer 100 to the inlet 110 side of the dryer 100;
At least one sludge product discharge unit disposed at a desired moisture content point in the sludge moisture content section formed in stages from the inlet 110 side to the outlet 120 point of the dryer 100 to discharge the sludge product having a target moisture content (300); and
A control unit 400 provided to adjust the balance between the sludge retention amount, the final dry sludge recirculation amount, and the sludge product production amount in the dryer 100; includes;
The recirculation unit 200 is connected to the outlet 120 of the dryer 100 and mixed with a circulation conveyor 210 for circulating and transporting the final dried sludge, and the final dried sludge and dewatered sludge supplied through the circulation conveyor 210 . It includes a mixing conveyor 220 that transports it and supplies it to the inlet 110 of the dryer 100,
The circulation conveyor 210 is connected to a horizontal conveyor 212 for discharging the dried sludge discharged from the outlet 120 of the dryer 100 to the side of the dryer 100, and the lower portion of the horizontal conveyor 212 and is connected to the side. It consists of a vertical conveyor 214 for supplying the dried sludge transferred to the inlet 110 to the mixing conveyor 220 disposed on the upper part,
The air inside the dryer 100 is introduced into the dry exhaust gas dust collector 500, and the fine sludge contained in the air is separated from the dry exhaust gas dust collector 500 and recovered to the circulation conveyor 210 of the dry sludge recirculation unit 200,
The sludge product discharging unit 300 is disposed on the bottom surface of the dryer 100 in the longitudinal direction at least one product discharge port 310 for discharging the sludge product having a target moisture content, and a product conveyor connected to the product discharge port 310 (320) Dry product moisture content selective discharge system of the disk dryer comprising a.
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