KR200382513Y1 - Apparatus for Drying Sludge in Advanced Wastewater Treatment System - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a sludge drying apparatus of an advanced sewage treatment plant.

2. The technical problem the invention is trying to solve

The present invention is a sludge drying apparatus of an advanced sewage treatment plant for optimizing the efficiency by measuring the moisture of the incoming sludge and the dry cake to be drawn out in real time and appropriately controlling the temperature and speed of the drying apparatus. The purpose is to provide.

3. Summary of solution of design

The present invention comprises a sludge inlet into which sludge is introduced, a conveying unit for transporting the introduced sludge to a dry material extracting unit, including a net mesh conveyor belt, and the dry material extracting unit for collecting the dry matter dried in the conveying unit. A sludge drying apparatus of an advanced sewage treatment plant comprising: the heat generating metal plate disposed at a lower end of the conveying unit and heated by an applied power source to heat the sludge conveyed by the conveying unit; A wastewater treatment unit for collecting wastewater discharged from the transfer unit; A moisture meter disposed at an upper end of the transfer unit and configured to measure moisture of the sludge to be transferred; And a control unit for controlling the transfer speed of the transfer unit according to the amount of water of the sludge received from the water meter.

4. Important uses of the devise

The present invention is used for advanced processing systems.

Description

Apparatus for Drying Sludge in Advanced Wastewater Treatment System}

The present invention relates to a sludge drying apparatus of an advanced sewage treatment plant. Especially, in the water treatment process using microorganisms such as a sewage treatment plant or a wastewater treatment plant, it is generated in an advanced sewage treatment plant of sewage and phosphorus to effectively remove nutrients such as salsa and phosphorus. The present invention relates to a sludge drying apparatus of a sewage treatment plant for efficiently drying sludge.

In general, sludge refers to a general name for industrial wastes or wastewater treatment sediments in the form of mud, and is also referred to as sludge. In the process of acid-treating the metal surface or the metal surface such as boilers, ships, tanks, etc., which are in contact with water, the metal surface is peeled and deposited to form a mud. The main component of the sludge is metal or a compound thereof.

The sludge treatment process is becoming more severe as environmental regulations are strengthened, and sludge treatment by the landfill law currently in use is reaching its limit. This is because environmental pollution such as groundwater caused by leachate from landfilled sludge has been seriously verified and the limit has been reached in terms of securing landfill space.

Various methods have been tried to optimize the treatment of such sludge, and heat drying, mechanical compression, and vacuum drying are used to remove water from the sludge.

However, the conventional method as described above has problems in terms of drying time and efficiency in drying. In particular, since the surface is first dried in the drying process to prevent evaporation of moisture, there is a problem that the internal moisture is prevented from evaporating, and as a result, the drying efficiency is directly reduced. Therefore, this drying method requires a lot of time to completely remove the water inside the sludge, there is a problem that the throughput per hour is lowered and the main cause of the operation efficiency of the device is reduced.

1 is a schematic diagram of a sludge drying apparatus using a conventional ceramic heating unit.

As shown in the figure, a conventional drying apparatus is composed of a sludge inlet 110, a ceramic heat generating unit 120, a transfer unit 130 and a dry matter extracting unit 140.

The sludge introduced through the sludge inlet 110 is passed through a drying apparatus at a predetermined temperature and speed, and after passing through the drying apparatus, is collected in a dry cake state in the dry extracting unit 140. Landfill is possible.

In this process, no separate control for drying the sludge is made, and conditions for treating sludge in a standard state are set and dried, resulting in a lot of variation in moisture of the dried product discharged.

In addition, in the conventional drying apparatus as shown in FIG. 1, wastewater generated in the sludge falls below the conveying unit 130, which is a mesh-type conveying conveyor belt, which causes problems in collecting the waste down the apparatus. do.

In practice, such wastewater is collected in a wastewater collection device (not shown) beneath the device, but there is a problem that adverse effects due to the wastewater occur in the drying device, in particular the conveyor system for transport.

The present invention has been proposed to solve the problems described above, by measuring the moisture of the incoming sludge and the dry cake (dry cake) is drawn in real time, by controlling the temperature and speed of the drying apparatus appropriately, the efficiency is improved It is an object of the present invention to provide a sludge drying apparatus of a sewage treatment plant for optimization.

The present invention for achieving the above object, the sludge inlet into which the sludge is introduced, the conveying unit for transporting the introduced sludge to the drying unit-including a net mesh conveyor belt, and the above-mentioned for collecting the dry matter dried in the conveying unit In the sludge drying apparatus of the sewage treatment plant, comprising a dry take-out unit, the heat generating metal plate for heating the sludge disposed at the lower end of the conveying unit, heated by an applied power source, and conveyed by the conveying unit ; A wastewater treatment unit for collecting wastewater discharged from the transfer unit; A moisture meter disposed at an upper end of the transfer unit and configured to measure moisture of the sludge to be transferred; And according to the amount of water of the sludge received from the water meter, it provides a sludge drying apparatus of the advanced sewage treatment plant comprising a control unit for controlling the conveying speed of the transfer unit.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same number as much as possible even if displayed on different drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a configuration diagram of an embodiment of the sludge drying apparatus of the sewage treatment plant according to the present invention.

As shown in the figure, the drying apparatus of the present invention, as shown in the figure, the drying apparatus of the present invention, the sludge inlet 110, the conveying unit 130, the dry matter extracting unit 140, the moisture meter 210 ), A heat generating metal plate 220, wastewater treatment unit 230 and the control unit 240 is configured.

When the sludge is introduced through the sludge inlet 110, the sludge is heated and dried through a mesh conveyor belt, and finally, the dried cake is collected in the dry outlet 140. .

According to the present invention, since the heat generating metal plate 220 may be disposed under the transfer unit 130, which is a mesh conveyor belt, it may be heated, and thus, the sludge may be heated more effectively than the conventional indirect heating method. In such a structure, the drying proceeds by acting on the sludge moving the upper end of the transfer unit 130.

At this time, the waste water falling to the lower end of the conveying unit 130, which is a mesh conveyor belt gathers in the wastewater treatment unit 230 of the collection structure, the wastewater treatment unit 230 is the heat generating metal plate 220 Being underneath may cause evaporation of the waste water.

The moisture meter 210 is responsible for measuring the moisture of the sludge passing through the conveying unit 130 in a microwave method, and if the data about the amount of water in a wired / wireless manner to the control unit 240 The controller 240 is responsible for controlling the feed rate of the sludge of the transfer unit 130.

That is, when the amount of moisture measured by the moisture meter 210 is large, the controller 240 may control the transfer unit 130 to slow down the transfer speed, and the moisture measured by the moisture meter 210. If the amount is small, the control unit 240 may control the transfer unit 130 to increase the transfer speed.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above has the effect of allowing the sludge to be dried efficiently by performing heating directly to the sludge and controlling the feed rate of the conveying part according to the amount of moisture.

1 is a schematic diagram of a sludge drying apparatus using a conventional ceramic heating unit,

Figure 2 is an embodiment configuration of the sludge drying apparatus of the advanced treatment plant of sewage according to the present invention.

* Explanation of symbols for the main parts of the drawings

210: moisture meter 220: heat generating metal plate

230: wastewater treatment unit 240: control unit

Claims (1)

A sewage inlet, comprising: a sludge inlet into which sludge is drawn, a conveying unit for conveying the introduced sludge to a dry outlet, including a net mesh conveyor belt, and the dry outlet for collecting the dried matter from the conveying unit. In the sludge drying apparatus of the advanced treatment plant, A heat generating metal plate disposed at a lower end of the conveying part and heated by an applied power source to heat the sludge conveyed by the conveying part; A wastewater treatment unit for collecting wastewater discharged from the transfer unit; A moisture meter disposed at an upper end of the transfer unit and configured to measure moisture of the sludge to be transferred; And Control unit for controlling the transfer speed of the transfer unit according to the amount of water of the sludge received from the water meter Sludge drying apparatus of the advanced treatment plant of sewage.