KR101876308B1 - Apparatus and Method for Reproducing Wasted Activated Carbon - Google Patents

Abstract

The present invention relates to a waste activated carbon regenerating apparatus having a low energy-consuming integrated miniaturization structure; and a waste activated carbon regenerating method using the waste activated carbon regenerating apparatus. The waste activated carbon regenerating apparatus reduces energy required in a waste activated carbon regenerating process by utilizing fire power of a burner applied to heat a regeneration furnace to high temperatures in drying of the waste activated carbon, i.e., a preparation step for activation as well as in activation of waste activated carbon. In addition, the waste activated carbon regenerating apparatus simplifies an overall structure of the apparatus and can realize miniaturization of the apparatus to an extent of enabling the apparatus to be mounted on a moving vehicle accordingly by proceeding both a drying process of the waste activated carbon and an activation process by high temperature heating in one container (drying regeneration furnace) and proceeding a natural cooling process after the activation process by using a coil type cooling pipe disposed to be wound on the drying regeneration furnace at the same time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste activated carbon recycling apparatus having a low energy consumption and an integrated miniaturization structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste activated carbon recycling apparatus for recycling waste activated carbon so as to be reused, and a method for recycling waste activated carbon using the same. More specifically, In addition to the activation of waste activated carbon, it is used to dry waste activated carbon, which is the preparation stage for activation. Thus, the energy required for regeneration of waste activated carbon is reduced, and the drying process of waste activated carbon and the activation process by high- Type regenerative furnace, and the natural cooling can be performed after the activation process by using the coil-type cooling tube arranged to wind the dry regeneration furnace, thereby simplifying the entire structure of the apparatus, Low energy consumption and integrated miniaturization < RTI ID = 0.0 > structure < / RTI & Having relates to a reproducing apparatus and a waste activated carbon activated carbon waste recycling method "using the same.

Waste activated carbon whose filtration ability against pollutants is reduced is reused through regeneration process by high temperature heating without disposal. Korean Patent Laid-Open Publication No. 10-2000-0063960 discloses a technique using microwaves. However, in a general method for recycling activated carbon, a cleaning process, a drying process, an activation process by high temperature heating, and a cooling process are sequentially performed .

FIG. 1 is a schematic view of a configuration of a waste activated carbon recycling apparatus according to the prior art. 1, the waste activated carbon recycling apparatus according to the related art is provided with a waste activated carbon recovery apparatus for recovering waste activated carbon from a feed hopper 101 A drying furnace 103 for removing moisture from the washed activated carbon and drying the activated carbon, and a regenerating unit 103 for heating the dried activated carbon to a high temperature by using a flame, And a cooling furnace 105 for cooling waste activated carbon which has been subjected to the activation process, wherein the charging hopper, the cleaning furnace, the drying furnace, the regeneration furnace, and the cooling furnace are separately provided in the form of separate containers, .

As such, the conventional activated carbon recycling apparatus has a limitation in that the structure of the activated carbon recycling apparatus is complicated and large in size because the containers for each step are separately provided. Above all, since the energy for drying in the drying furnace 103 and the energy for activation in the regeneration furnace 104 are separately consumed in separate vessels, a large amount of energy is required for regeneration of the waste activated carbon And thus a considerable cost is required.

Korean Patent Laid-Open Publication No. 10-2000-0063960 (published November 11, 2000).

The present invention has been developed in order to overcome the limitations of the prior art as described above, and it is an object of the present invention to provide a method of regenerating waste activated carbon by integrating a drying furnace and a regeneration furnace, By using the waste energy in the activation process for the drying of the waste activated carbon, the energy consumed in the regeneration process of the whole waste activated carbon is saved. Thereby greatly reducing the cost of recycling spent activated carbon. SUMMARY OF THE INVENTION

In addition, in the present invention, the drying hopper and the washing furnace are integrated into one member while the drying hopper and the washing furnace are integrated, and the equipment for cooling is also installed in an optimal space arrangement. Thus, The present invention is intended to provide a waste activated carbon recycling apparatus and method capable of downsizing and utilizing a moving vehicle mounted thereon.

In order to achieve the above object, according to the present invention, there is provided a washing machine comprising: a cleaning input hopper (1) for cleaning and dehydrating waste activated carbon by washing water to be supplied to a subsequent process; And a spiral natural cooling duct (3) for allowing the regenerated activated carbon discharged through the activation process to pass through while being naturally cooled, characterized in that the regeneration activated carbon (2) is activated by high temperature heating at the same time, Device is provided.

In order to achieve the above object, the present invention also provides a waste activated carbon recycling method for recycling waste activated carbon using the above apparatus.

In the reclaimed activated carbon recycling apparatus and regeneration method according to the present invention, the drying regeneration furnace (2) is a tubular member having a long elongated shape, and one end portion in the longitudinal direction is provided with a charging port into which waste activated carbon is charged, A regenerated activated carbon discharge port through which the regenerated activated carbon passed through the activation process is formed; The drying regeneration furnace (2) is inclined downward toward the other end; And the other end is provided with a burner 25 for high temperature heating for the activation process; The waste activated carbon injected into the drying regeneration furnace 2 is moved from the charging port toward the regeneration activated carbon discharge port by the downward inclination of the drying regeneration furnace 2, The waste activated carbon is moved to the other end where the burner 25 is present and the activated carbon is exhausted to the regeneration activated carbon outlet after the activation process at the other end.

In the waste activated carbon recycling apparatus and regeneration method according to the present invention, a plurality of swash plates 11, which are inclined downward, are alternately provided on both sides of the washing hopper, 1 is provided with a washing water injection nozzle 10 for injecting washing water into the charged activated carbon and the lowermost swash plate 11a provided at the lowermost end of the washing input hopper 1 is connected to the cleaning input hopper 1 The waste activated carbon is introduced into the cleaning and input hopper 1 and the waste activated carbon is discharged from the upper washing water injection nozzle 10 The washing water is sprayed and the waste activated carbon is washed, and the washing water is dehydrated in the process of falling down sequentially through the swash plate 11. Thus, washing and dehydration of the waste activated carbon are performed in the washing inlet hopper 1). ≪ / RTI >

Furthermore, in the waste activated carbon recycling apparatus and regeneration method according to the present invention, the regenerated activated carbon discharge port of the regenerating regeneration furnace 2 is provided with a spiral natural cooling So that the regenerated activated carbon discharged to the regeneration activated carbon outlet can be naturally cooled while passing through the spiral natural cooling duct 3.

In the waste activated carbon recycling apparatus of the present invention, the regenerated activated carbon having been subjected to the activation process is naturally cooled during the movement process, and the spiral natural cooling duct for natural cooling is arranged to wind the outside of the dry regeneration furnace, Can be minimized.

Particularly, in the waste activated carbon recycling apparatus of the present invention, a cleaning input hopper capable of simultaneously performing washing and dehydration of waste activated carbon, a drying regeneration furnace in which a drying process and an activating process are performed, and a spiral- Each constituent element for regeneration of the activated carbon is collected in an efficient spatial arrangement, and therefore, the overall scale of the apparatus can be miniaturized so as to be mounted on a moving vehicle.

Therefore, the waste activated carbon recycling apparatus of the present invention is advantageously realized as a "mobile waste activated carbon recycling apparatus" which can go to a necessary place and perform the recycling operation of the waste activated carbon.

1 is a schematic view of a configuration of a waste activated carbon recycling apparatus according to the prior art.
2 is a schematic view showing a configuration of a waste activated carbon recycling apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

FIG. 2 is a schematic view showing a configuration of a waste activated carbon recycling apparatus 100 according to the present invention.

As shown in the figure, the waste activated carbon recycling apparatus 100 of the present invention for regeneration of waste activated carbon is provided with a cleaning input hopper 1 to be supplied to a subsequent process in a state in which waste activated carbon is cleaned by washing water, A drying regeneration furnace 2 for drying the waste activated carbon supplied from the hopper 1 and being activated by high temperature heating and a tubular member for spirally winding the outside of the drying regeneration furnace 2, And a spiral natural cooling duct 3 for allowing the regenerated activated carbon discharged through the activation process in the furnace 2 to naturally pass therethrough.

In FIG. 2, the cleaning inlet hopper 1 is shown to have a rough interior view. In the present invention, a plurality of swash plates 11 are provided in the cleaning inlet hopper 1. The swash plate 11 is inclined downward and alternately arranged alternately to both side walls of the tubular cleaning and dispensing hopper 1. [ The cleaning inlet hopper (1) is provided with a washing water spraying nozzle (10) for spraying washing water to the charged activated carbon. The lowermost swash plate 11a provided at the lowermost end of the cleaning input hopper 1 is inclined toward the waste activated carbon outlet formed at the lower portion of the cleaning input hopper 1. The lowermost swash plate 11a is a drain (For example, a perforated plate or a mesh).

As described above, in the present invention, the waste activated carbon is dropped into the hopper 1 through the swash plate 11. The washing water is sprayed from the upper washing water spray nozzle 10, Falls down. Since the drain hole is formed in the lowermost swash plate 11, the dehydration process of the washing water proceeds in the course of the waste activated carbon falling sequentially on the swash plate 11. [ That is, in the present invention, it is possible to simultaneously perform the washing and dehydration of the charged activated carbon through the cleaning input hopper 1 having the above-described configuration without separately providing the washing furnace and the dehydrating furnace, An advantage that the configuration of the reproducing apparatus is simplified can be exerted.

The waste activated carbon subjected to washing and natural dehydration processes is discharged through the waste activated carbon outlet of the cleaning input hopper 1 and supplied to the drying regeneration furnace 2. In FIG. 2, the drying regeneration furnace 2 is also shown so as to have a rough interior view. The dry regeneration furnace 2 is a horizontally disposed horizontally long tubular member, A charging port for charging activated carbon and a discharging port for regenerating activated carbon through which the regenerated activated carbon is subjected to the activation process. Particularly, the drying regenerating furnace 2, which is elongated so as to form a downward inclination in the inner space of the drying regenerating furnace 2 in the direction from the inlet of the regenerated activated carbon to the regeneration activated carbon outlet, is arranged in a tilted state Or the drying regeneration furnace 2 itself is kept horizontal but has an internal space or inner bottom face of the dry regeneration furnace 2 inclined so as to be inclined downward in the longitudinal direction.

Therefore, the waste activated carbon charged from the cleaning inlet hopper 1 to the drying regeneration furnace 2 through the inlet is naturally moved toward the regeneration activated carbon outlet by downward inclination in the inner space of the drying regeneration furnace 2, And then discharged to the outlet of regenerated activated carbon through the activation process by the drying process and the high temperature heating.

Specifically, a burner 25 is provided at an end portion of the drying regenerating furnace 2 in the longitudinal direction opposite to the direction in which the regeneration activated carbon outlet is formed, by heating the activated waste activated carbon to a high temperature for activation. In FIG. 2, reference numeral 24 denotes a flame 24 which is emitted from the burner 25 to the inside of the dry regeneration furnace 2.

As described above, in the present invention, the dry regeneration furnace 2 is formed of a tubular member extending laterally and extending in a longitudinal direction, and has an inlet formed at one end of the elongated member, And a burner 25 are provided. In this configuration, the other end of the inner space of the dry regeneration furnace 2 where the burner 25 is provided is heated to a very high temperature enough to activate the activated carbon by the operation of the burner 25, At a portion where the inlet port for supplying waste activated carbon from the cleaning inlet hopper 1 is formed, the temperature is relatively low as compared with the other end portion. The waste activated carbon injected into the drying regeneration furnace (2) smoothly moves from the inlet to the regeneration activated carbon outlet by the downward inclination of the drying regeneration furnace (2).

When the waste activated carbon is introduced into one end of the dry regeneration furnace 2 in the state where the burner 25 operates at the other end and is heated to a high temperature in order to activate the waste activated carbon, And is supplied to the other end in such a dried state, and is subjected to an activation process at the other end of the drying regeneration furnace which is heated to a very high temperature. That is, in the present invention, the waste activated carbon is injected into the drying regeneration furnace 2 and is naturally dried in the process of being moved downward by tilting it downward, so that it is heated and heated at a high temperature in a state of removing moisture.

Therefore, in the present invention, both the drying process and the activation process by heating at high temperature are performed in one container of the dry regeneration furnace (2), so that the constitution of the whole activated carbon regeneration device is simplified and the size of the waste activated carbon regeneration device can be reduced do. Particularly, in the drying regenerating furnace 2 of the present invention, surplus energy which does not contribute to the activation of the movable energy of the burner 25 for the activation process is utilized in the drying process, So that the energy consumed in the regeneration process of the whole activated carbon is saved, and thus the cost for recycling spent activated carbon can be greatly reduced.

After the activation process of the waste activated carbon proceeds by the high temperature heating by the operation of the burner 25 at the other end of the dry regeneration furnace 2, it is discharged to the regeneration activated carbon outlet and subjected to the cooling process. In the waste activated carbon recycling apparatus according to the present invention, a spiral natural cooling duct 3 consisting of a tubular member spirally winding the outside of the dry regeneration furnace 2 is connected to the regeneration activated carbon outlet. Therefore, the regenerated activated carbon discharged to the regeneration activated carbon outlet is naturally cooled while passing through the spiral natural cooling duct 3. The cooled regenerated activated carbon is collected in a storage furnace.

As described above, in the waste activated carbon recycling apparatus of the present invention, the regenerated activated carbon having been subjected to the activation process is naturally cooled in the course of movement, and the spiral natural cooling duct 3 for natural cooling is arranged to wind around the outside of the dry regeneration furnace 2 , It is possible to minimize the space that is encroached by the cooling pipe. Particularly, as described above, in the waste activated carbon recycling apparatus of the present invention, the cleaning input hopper 1 capable of simultaneous washing and dehydrating of the activated carbon, the drying regeneration furnace 2 in which the drying process and the activating process proceed, and Through the constitution of the spiral natural cooling duct 3 described above, each constituent element for regeneration of the waste activated carbon is collected in an efficient spatial arrangement, and thus the overall size of the apparatus can be reduced to such an extent that it can be mounted on a moving vehicle . Therefore, the waste activated carbon recycling apparatus of the present invention is advantageously realized as a "mobile waste activated carbon recycling apparatus" which can go to a necessary place and perform the recycling operation of the waste activated carbon, so that it can be utilized very usefully.

1: Cleaning hopper
2: Dry regenerating furnace
3: Spiral natural cooling duct
100: Waste activated carbon recovery device

Claims (8)

A cleaning inlet hopper for cleaning the waste activated carbon by the washing water and dehydrating the waste activated carbon to supply it to the subsequent process,
A drying regeneration furnace for drying the waste activated carbon supplied from the cleaning inlet hopper and being activated by high temperature heating,
And a spiral natural cooling duct for naturally cooling the regenerated activated carbon discharged through the activation process as it passes;
The drying regeneration furnace is a tubular member having a long elongated shape, and one end of the drying regeneration furnace is provided with a charging port for charging the waste activated carbon, and the other end thereof is provided with a regeneration activated carbon discharge port for discharging the regeneration activated carbon.
The dry regeneration furnace is inclined downward toward the other end;
And the other end is provided with a burner for high temperature heating for the activation process;
The waste activated carbon charged into the dry regeneration furnace is moved from the inlet to the regeneration activated carbon outlet by the downward inclination of the dry regeneration furnace. As the drying of the activated carbon proceeds from one end to the higher temperature due to the heating of the burner, The activated carbon is discharged to the outlet of the activated carbon after passing through the activating process at the other end of the regeneration regenerating furnace.
delete The method according to claim 1,
In the interior of the cleaning input hopper, a plurality of downwardly inclined swash plates are alternately provided on both side walls,
At the upper end of the cleaning inlet hopper, there is provided a washing water spray nozzle for spraying washing water to the charged activated carbon,
The lowermost inclined plate provided at the lowermost end of the cleaning inlet hopper is inclined toward the waste activated carbon outlet formed at the lower portion of the cleaning inlet hopper and is formed of a plate having a drain hole through which wash water can pass,
As the waste activated carbon is injected into the cleaning hopper, the washing water is sprayed from the upper washing water injection nozzle, and the waste activated carbon is washed, and the washing water is dehydrated in the process of falling down sequentially through the swash plate, And the waste activated carbon is recovered.
The method according to claim 1,
The regeneration activated carbon discharged from the regeneration activated carbon outlet is passed through a spiral natural cooling duct and cooled naturally by a spiral natural cooling duct. Wherein the waste activated carbon recovery device has a structure in which waste activated carbon is recycled.
As a regeneration method of waste activated carbon,
Washing and dehydrating the waste activated carbon by the washing water in the cleaning inlet hopper and supplying it to the subsequent process;
Drying the waste activated carbon supplied from the cleaning input hopper by a dry regeneration furnace and activating it by high temperature heating; And
Cooling the regenerated activated carbon discharged through the activation process to pass through the spiral natural cooling duct connected to the dry regeneration furnace;
In the dry regeneration furnace, a long elongated tubular member is provided with a charging port for charging waste activated carbon at one end in the longitudinal direction, and a regeneration activated carbon outlet for discharging the regenerated activated carbon which has undergone the activation process at the other end thereof, And a burner for heating at a high temperature for the activation process is provided at the other end portion;
In the drying and activation step in the dry regeneration furnace,
A step in which waste activated carbon is injected into a dry regeneration furnace;
Moving toward the discharge port of the regenerated activated carbon by downward inclination of the dry regeneration furnace, wherein the drying of the activated carbon from the one end to the other end where the burner is present is carried out by the high temperature by the heating of the burner; And
And then discharged to the outlet of regenerated activated carbon after the activation process at the other end of the regenerated regeneration furnace.
delete 6. The method of claim 5,
The washing and dispensing hopper is provided with a plurality of swash plates 11 which are inclined downward alternately alternately to both side walls thereof and a washing water spray nozzle for spraying washing water to the charged activated carbon And a lowermost swash plate inclined toward the waste activated carbon outlet formed at the lower part of the cleaning inlet hopper and having a drain hole through which wash water can pass,
In the cleaning dehydrating and supplying step in the cleaning inlet hopper 1,
Wherein the waste activated carbon is discharged from the upper washing water injection nozzle while the waste activated carbon is being injected into the cleaning inlet hopper, and the waste water is dehydrated in the process of sequentially dropping down the ascending plate while the waste activated carbon is being washed.
6. The method of claim 5,
A spiral natural cooling duct is connected to the regeneration activated carbon discharge port of the drying regeneration furnace (2), which is composed of a tubular member spirally winding the outside of the drying regeneration furnace,
Wherein the regenerated activated carbon discharged to the regeneration activated carbon outlet passes through a spiral natural cooling duct and is naturally cooled.

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