KR101261021B1 - sludge drying apparatus - Google Patents

Abstract

The present invention has a drying plate is installed in the main body in multiple stages up and down in the granular dryer for drying and transporting the sludge injected into the main body to the drying plate at the bottom while heating with a high temperature heat supplied from a heat source, installed along the center of the main body and rotated A shaft; A drying plate connected to the shaft to dry the injected sludge while rotating; A scraper installed radially about the shaft to gradually move the sludge supplied to the drying plate to the center portion or the outer edge portion of the drying plate; A plurality of moving blades installed at regular intervals on the scraper, the sludge being dropped through the inlet and gradually moving to the center or outer edge of the drying plate while stirring sludge left and right; And moving means installed on the drying plate to drop the sludge moved to the center portion or the outer edge portion of the drying plate by the scraper to the lower end, wherein the moving means moves to the center portion or the outer edge portion of the drying plate through the scraper. In order to drop the sludge to the lower end of the blade net coupled to the drying plate and integrally coupled with the scraper, the sludge of the coarse particles that are not dropped to the lower drying plate is cut by the blade to fall to the bottom Characterized in that it consists of a pressure plate formed in the portion in contact with the blade net.

Description

Sludge drying apparatus with increased drying efficiency

The present invention relates to a sludge drying apparatus, and more particularly, a drying plate is installed in the main body in multiple stages up and down in a granular dryer for transporting and drying the sludge introduced into the main body to a drying plate at the bottom while heating with high temperature heat supplied from a heat source. In order to gradually move the shaft installed and rotated along the center of the main body, the drying plate for drying the sludge connected while rotating connected to the shaft, and the sludge supplied to the drying plate to the center or outer edge of the drying plate A plurality of movements consisting of a scraper installed in the radial direction with respect to the shaft and a triangle which is installed at regular intervals in the scraper and gradually moves to the center or outer edge of the drying plate while stirring the sludge accumulated by falling through the inlet to the left and right. Blade and dry plate by the scraper In order to drop the mobile portion of sludge to the bottom of the central portion or the outer edge relates to a sludge drying device, the drying efficiency is increased, it characterized in that it comprises a moving means which are mounted to the drying board.

In recent years, the generation of domestic sewage and industrial wastewater has also increased greatly for various reasons such as economic development, population growth, and improvement of living standards. Accordingly, to prevent water pollution in major rivers and rivers, the facilities of sewage and wastewater treatment plants, which are the basic facilities for water quality improvement, are inevitably increasing, and the amount of sewage and wastewater sludge, which are secondary by-products, is gradually increasing. .

For example, as of 2005, sludge is generated at 6.9 million tons per year in Korea, most of which is being dumped or incinerated. Therefore, by causing various social problems such as environmental pollution, the government is making efforts to increase the recycling rate of organic sludge on land by 70% by creating a ban on ocean dumping of organic sludge by 2011.

Most of the sludge is generated in the form of a dehydrated cake having a water content of 75 to 85%, the organic material of the sludge except the water is usually 40 to 80% in a variety of ranges, resulting in a calorific value From 2,500 kcal / kg up to 4,500 kcal / kg, the sewage sludge generated is mostly treated by landfill and dumping at sea.

However, in the case of simple landfill, from July 2003, direct reclamation of sewage treatment plant sludge with a capacity of more than 10,000 tons / day has been banned due to the revision of the Enforcement Regulations of the Waste Management Act. Accordingly, the proportion of ocean dumping is increasing, but in this case, there is a concern that it may cause pollution of the marine ecosystem such as eutrophication due to excessive organic substances, algae growth and oxygen depletion due to red tide occurrence in which a large amount of vegetable nutrients are introduced. Korea entered into the London Convention, the international convention on the prohibition of waste dumping on December 21, 1993, and has been in effect since January 19, 1994. The government has tightened marine dumping by tightening regulations such as changing the law. In addition, incineration, which is considered as a sludge treatment method, causes not only high incineration facility construction and operation costs but also air pollution due to the generation of secondary environmental pollutants. The situation is very difficult to do.

Various types of sludge drying apparatus have been developed to solve the above problems, and the characteristics of such a drying apparatus is to install a drying plate in the main body, and dry the sludge by heating the drying plate through the heat received from the heat source, It is made of a structure for repeatedly drying or discharged by dropping the sludge to the lower end by the moving means, to provide a method for further increasing the residence time in the drying plate in such a sludge drying apparatus.

In addition, the drying is not completed completely, the outer surface is dried on a dry plate, but the inside is not dried, but to propose a method for drying the sludge discharged in a state containing water.

The present invention has been invented to solve the above problems, while increasing the time for the injected sludge to stay on the drying plate, the outer surface is dried, such as sludge having coarse particles, but completely containing moisture inside It aims to increase the drying efficiency by minimizing the water content of the sludge which is not dried.

In order to solve the above problems, the present invention is a granular dryer in which the drying plate in the main body is installed in multiple stages up and down to transfer the sludge injected into the main body to a drying plate at the bottom while heating with high temperature heat supplied from a heat source, wherein A shaft installed and rotating along the center of the main body; A drying plate connected to the shaft to dry the injected sludge while rotating; A scraper installed radially about the shaft to gradually move the sludge supplied to the drying plate to the center portion or the outer edge portion of the drying plate; A plurality of moving blades installed at regular intervals on the scraper, the sludge being dropped through the inlet and gradually moving to the center or outer edge of the drying plate while stirring sludge left and right; And moving means installed on the drying plate to drop the sludge moved to the center portion or the outer edge portion of the drying plate by the scraper to the lower end, wherein the moving means moves to the center portion or the outer edge portion of the drying plate through the scraper. In order to drop the sludge to the lower end of the blade net coupled to the drying plate and integrally coupled with the scraper, the sludge of the coarse particles that are not dropped to the lower drying plate is cut by the blade to fall to the bottom Characterized in that it consists of a pressure plate formed in the portion in contact with the blade net.

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In addition, by adjusting the angle between the moving blade and the scraper is characterized in that the speed of the sludge can be adjusted.

In addition, the moving blades are attached to each of the scraper is characterized in that attached to each having a different distance from the shaft.

In addition, the moving means is characterized in that installed in the central portion and the outer edge portion alternately to the drying plate installed in multiple stages.

According to the present invention having the configuration as described above, as the sludge is gradually moved to the center portion or the outer edge portion of the drying plate by a plurality of moving blades installed in the scraper, the time for staying on the drying plate becomes long, thereby ensuring time to dry. It is possible to control the moving speed of the sludge falls to the bottom by adjusting the angle formed by the moving blade and the scraper can dry a lot of sludge per unit time, the surface is dried, such as sludge having coarse particles, but the moisture inside Sludge that is not completely dried, including, can be cut into fine particles by the blade and the pressure plate to minimize the moisture content has the effect of increasing the drying time and maximizing the drying efficiency.

1 is an illustration of a sludge drying apparatus to increase the drying efficiency according to the present invention.
Figure 2 is an exemplary view showing a structure in which the moving means of the sludge drying apparatus to increase the drying efficiency according to the present invention is formed on the outer edge of the drying plate.
Figure 3 is an exemplary view showing a structure in which the moving means of the sludge drying apparatus to increase the drying efficiency according to the present invention is formed in the central portion of the drying plate.
Figure 4 is an exemplary view showing a state in which the drying plate is installed in multiple stages of the sludge drying apparatus to increase the drying efficiency according to the present invention.
5 is an exemplary view showing a state in which a moving blade is attached to each scraper of the sludge drying apparatus to increase the drying efficiency according to the present invention.
6a to 6c is an exemplary view according to an embodiment of the sludge drying apparatus to increase the drying efficiency according to the present invention.
7a to 7c is an exemplary view according to another embodiment of the sludge drying apparatus to increase the drying efficiency according to the present invention.

The present invention relates to a sludge drying apparatus that increases the drying efficiency, the outer surface is dried by the drying plate while the sludge of the coarse particles stays on the drying plate, but falls to the drying plate of the next layer in the state containing the water inside As a result, the drying efficiency is lowered. If the sludge is made into fine particles before falling to the next drying plate, the drying efficiency is further improved.

In addition, in order to improve the drying efficiency of the drying plate may include a heat source for supplying high temperature steam or heat medium oil, etc., of course, the heating method of the drying plate through the heat supply pipe illustrated in the present invention is only preferred. The embodiment is not limited thereto.

Hereinafter, a sludge drying apparatus having increased drying efficiency according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is an illustration of a sludge drying apparatus to increase the drying efficiency according to the present invention, Figure 2 shows a structure in which the moving means of the sludge drying apparatus to increase the drying efficiency according to the present invention is formed on the outer edge of the drying plate 3 is an exemplary view illustrating a structure in which the moving means of the sludge drying apparatus having increased drying efficiency according to the present invention is formed at the center of the drying plate, and FIG. 4 is a sludge having increased drying efficiency according to the present invention. It is an exemplary figure which shows the state in which the drying plate of a drying apparatus was installed in multiple stages.

In the sludge drying apparatus which increases the drying efficiency according to the present invention, the drying plate 30 is installed in multiple stages up and down in the main body 10 while heating the sludge introduced through the inlet 11 of the main body with high temperature heat supplied from a heat source. In the granular dryer for transporting and drying to a lower drying plate, the drying plate is installed along the center of the main body 10 to rotate the shaft 20, the drying plate is connected to the shaft 20 while rotating the sludge injected 30 and a scraper 40 radially installed about the shaft so as to gradually move the sludge supplied to the drying plate 30 to the center portion or the outer edge portion of the drying plate, and fixed to the scraper 40. It is installed at intervals, but a plurality of consisting of a triangular to move the sludge accumulated by dropping through the inlet to the left or right gradually while moving to the center or outer edge of the drying plate It comprises a moving blade 41 and a moving means 50 is installed on the drying plate 30 to drop the sludge moved to the center or outer edge of the drying plate by the scraper to the lower end.

As shown in Figures 1 to 4, the drying apparatus is formed with an inlet 11 for injecting sludge in the upper one side of the main body 10, is installed along the center of the main body 10 and the rotatable shaft ( The drying plate 30 which is connected to 20 and rotates is installed in multiple stages.

The drying plate 30 is a sludge introduced by heating the drying plate 30 while moving a high temperature fluid such as high temperature hot air or heat medium oil supplied from the heat source 32 along the heat supply pipe 31 installed at the bottom thereof. By drying, a plurality of scrapers 40 in a radial direction about the shaft 20 to move from the drying plate 30 installed on the highest layer of the body to the drying plate 30 installed on the next layer at the bottom. ) Is installed.

The scraper 40 is for gradually moving the sludge supplied from the inlet 11 to the center portion or the outer edge of the drying plate 30, the lower end of the scraper a plurality of moving blades 41 at regular intervals from the shaft This is installed.

At this time, the moving blade 41 is to move toward the outer edge portion or the central portion of the drying plate 30 gradually stirring left and right sludge falling from the inlet 11, the moving blade 41 is the shaft 20 It is preferable to be attached to each scraper 40 so as to have a different distance from the), through this configuration, the sludge accumulated on the drying plate 30 is moved to the center or the outer edge of the drying plate 30 while the goal It is to let.

 A plurality of scrapers 40 are installed in the drying plate 30 in a radial direction with respect to the shaft 20, and the distance between the shafts and the moving blades installed closest to the shaft among the plurality of moving blades of each scraper is It can be seen that they are gradually spaced apart.

Referring to FIG. 5, the distance between the moving blade 41a and the shaft 20 installed closest to the shaft 20 of the first scraper 40a is d1 and the closest to the shaft of the second scraper 40b. The distance between the moving blade 41b and the shaft 20 provided is d2, and the distance between the moving blade 41c and the shaft installed closest to the shaft 20 of the third scraper 40c is d3 and the fourth scraper 40d. It can be seen that the distance between the moving blade (41d) and the shaft that is installed closest to the shaft 20 of the (d) as d4, the separation distance gradually increases from d1 to d4, through this configuration the scraper (40a) 40b, 40c, and 40d rotate along the shaft 20, and the moving blades 41 installed on the lower ends of the scrapers 40a, 40b, 40c, and 40d dry the sludge dropped on the drying plate 30. The goal is to move the ball to the outer edge or center of the plate.

At this time, the moving blade 41 is made of a triangular bar to facilitate the movement and stirring of the sludge so that the sludge is smoothly stirred.

In the plurality of moving blades 41 provided on each scraper 40, it is preferable that the distance between the moving blades and the moving blades has the same distance.

2 to 4, the moving means 50 is integrated along the outside of the drying plate 30 to drop the sludge moved to the outer edge of the drying plate 30 through the scraper 40 to the bottom. Sludge of the coarse particles staying on the blade net 51 is not moved to the outer edge portion of the drying plate 30 by the blade net 51 and the scraper 40 coupled to the lower plate (30) It comprises a pressing plate 52 is formed in a portion in contact with the blade net 51 to be cut by the blade net 51 to fall to the bottom.

The blade net 51 serves as a passage through which the sludge moved to the outer edge of the drying plate 30 through the scraper 40 and the moving blade 41 falls to the lower drying plate 30, the mesh It is made of a sharp blade of the shape, the pressure plate 52 is cut by the blade netting by pressing the sludge stayed in the blade netting to the blade netting without falling into the dry plate of the bottom because the particles are thick and falls to the bottom It is to play a role.

At this time, the pressing plate 52 is installed to be spaced apart from the upper side of the blade net so as not to be damaged by the blade net 51, the scraper 40 to be formed to be bent in the opposite direction to the rotation direction of the drying plate (30) Of the sludge that the particles are not caught by the blade mesh 51 while falling along the shaft 20 and are not dropped into the bottom drying plate by being pressed into the blade mesh by the pressure plate 52 and cut into fine particles. To fall to.

In addition, the moving means 50 may be integrally coupled to the center of the drying plate 30 in order to drop the sludge moved to the center of the drying plate 30 through the scraper 40 to the bottom, As described above, the moving means 50 are alternately installed at the outer edge and the center of the drying plate 30 so that the sludge is dried while sequentially falling to the lower drying plate 30 while passing through the blade net 51. While securing the time to stay on the (30), there is an effect that can maximize the drying efficiency by cutting the sludge of the coarse particles into fine particles.

In addition, referring to Figures 6a to 6c, the sludge drying apparatus to increase the drying efficiency according to the present invention by adjusting the angle that the moving blade 41 is attached to the lower end of the scraper 40, the sludge drying plate 30 You can adjust the speed to move to the center or outer edge of the).

It can be seen that the angle formed by the sides of the shaft 20 side of the scraper 40 and the moving blade 41 is θ1, θ2, θ3, respectively, and the angle decreases from θ1 to θ3, and the scraper 40 as described above. ) And the smaller the angle between the sides of the shaft side of the moving blade 41, the greater the amount of sludge transferred to the outer edge of the drying plate 30, conversely the shaft of the scraper 40 and the moving blade 41 As the angle formed by the side becomes larger, the amount of sludge conveyed to the outer edge of the drying plate 30 is reduced.

7A to 7C, it can be seen that the angle formed by the sides of the scraper 40 and the shaft 20 side of the moving blade 41 is θ4, θ5, θ6, respectively, and the angle increases from θ4 to θ6. As the angle of the sides of the shaft side of the scraper 40 and the moving blade 41 increases as described above, the amount of sludge transferred to the center portion of the drying plate 30 increases, and thus the moving blade 41. By controlling the angle formed by the) and the scraper 40, it is possible to adjust the speed at which the sludge moves to the outer edge or the center of the drying plate, it is possible to adjust the amount of sludge introduced through this.

Water vapor generated during the repeated operation of the transfer and drying is discharged through the steam outlet 70 formed on one side of the main body and introduced into the receiver 80 to remove moisture, and then re-introduced into the heat source 32. Through the circulation and repetition process to prevent heat loss and increase the thermal efficiency, the completely dried sludge is to be discharged to the outside by the screw conveyor (90).

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents and modifications that may be substituted for them are provided. It should be understood that there may be examples.

10: main body 11: inlet
20: shaft
30: drying plate 31: heat supply pipe
32: heat source
40: scraper 41: moving blade
50: Moving means
51: blade 52: pressure plate
60: center motor 61: first bevel gear
62: second bevel gear
70: steam outlet 80: receiver
90: screw conveyor

Claims (5)

In the granular dryer which is installed in the main body in multiple stages up and down, the sludge injected into the main body is transferred to a drying plate at the bottom while heating with the high temperature heat supplied from the heat source,
A shaft installed and rotating along the center of the main body; A drying plate connected to the shaft to dry the injected sludge while rotating; A scraper installed radially about the shaft to gradually move the sludge supplied to the drying plate to the center portion or the outer edge portion of the drying plate; A plurality of moving blades installed at regular intervals on the scraper, the sludge being dropped through the inlet and gradually moving to the center or outer edge of the drying plate while stirring sludge left and right; And moving means installed on the drying plate to drop the sludge moved to the center or outer edge of the drying plate by the scraper to the lower end.
The moving means is moved by the blade mesh and the scraper coupled integrally with the drying plate in order to drop the sludge moved to the center portion or the outer edge of the drying plate through the scraper to the lower end of the thick plate does not fall to the dry plate at the bottom Sludge drying apparatus with increased drying efficiency, characterized in that the sludge of the particles is made of a pressure plate formed in a portion in contact with the blade so that the blade is cut by the blade to fall to the bottom.
delete The sludge drying apparatus of claim 1, wherein the moving speed of the sludge can be adjusted by adjusting an angle formed by the moving blade and the scraper. The sludge drying apparatus of claim 1, wherein the moving blades attached to the scrapers are attached to have different distances from the shaft. The sludge drying apparatus of claim 1, wherein the moving unit is installed in the center and the outer edge of the drying plate installed in multiple stages.

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