KR100907833B1 - Sludge treatment equipment - Google Patents

Abstract

The present invention provides a sludge treatment apparatus for treating water and sewage sludge, which is inevitably generated by sewage treatment or water purification, sludge or waste water having a high water content through a drying process and a compression process by heating. The sludge treatment apparatus is a process for drying the treated materials such as sludge, which is water or sewage sludge, which is inevitably generated by sewage or water purification process, or waste water having high moisture content, by drying. It is installed in each of the inlet and outlet to accept and discharge the object to be processed, it is made of a hollow tube shape is connected to each other by the adjacent side and the connecting pipe, the heat medium supplied from the heat medium boiler is forced to the peripheral wall , The workpieces flowing through the inlet are forced by the lead screw At least one drying furnace having parallel heating elements having a heating element physically dried by exothermic heat, a mixer for blending the dry matter to be treated at the outlet of the subsequent drying furnace and the binder and a binder; It is equipped with a compression molding machine that compresses water mixed with dry matter and binder in the form of a mixer and discharges it into granular form.The sludge or water content that is inevitably produced by sedimentation in sewage or water treatment process is inevitably produced. High waste is processed to the minimum volume through drying and compression process by heating.

Description

Sludge processing unit {apparatus for processing for sludge}

The present invention relates to a sludge treatment apparatus for treating sludge, which is inevitably produced by sewage or water treatment, sludge or waste water having a high moisture content through a drying and compression process by heating to a minimum volume. .

Sewage sludge, which is a sediment produced during the treatment of water and sewage, contains about 20-50% of organic matter, and its water content is high from 96-98% of the first sludge to 99-99.5% of activated sludge. The process is very difficult.

Until now, the sludge was stabilized by anaerobic treatment, and then disposed of by dehydration and landfilling. However, this method is difficult due to the increase in the amount of sludge, so that the sewage sludge is directly dewatered and incinerated. In addition, methods such as wet oxidation or heat treatment have been studied.

The final treatment of the sludge treated in this way is being treated by landfilling, etc., and the sewage sludge generation has been continuously increasing with the increase of sewage treatment facilities and the advanced treatment method.

These sewage sludges have been relied on for landfills in landfills, but landfilling has been banned entirely, and the direct discharge of landfills has led to the rapid release of oceanic emissions as a realistic alternative to landfilling, but this also increases the pollution of the ocean. Currently, ocean dumping is prohibited due to environmental pollution.

An alternative is to incinerate or dry the sludge by drying it, landfilling it, or using it as a soil improver, that is, composting it into soil improvement or farmland fertilizer, solidifying it as a soil cover, or recycling it as construction materials such as brick or cement raw materials. Processing, and other resources.

As an example, the drying treatment reduces the residual moisture by evaporating moisture contained in a substance using heat or hot air or by separating it by mechanical centrifugal force, but it is not easy to remove the moisture. The volume of the removed sludge is not reduced and not easy to store and transport, as well as the irregularities of the specification is a lot of problems when recycling as a resource.

The present invention has been made in view of the above circumstances, and an object thereof is to achieve a series of drying processes of sludge using at least one stage of heating furnaces using a heat medium, and to dry dry sludge, which is dried. By granulating to a predetermined size through a process, it is possible to provide a sludge treatment apparatus that reduces sludge as well as volume to a minimum, which is easy to store and transport and improves utilization of renewable resources.

The object of this invention is; It is a process of drying the processed materials including the water and sewage sludge generated in the sewage or water purification process or waste water having high moisture content by heating, and having hollow inlet and outlet to receive and discharge the processed materials. It is formed in a tubular shape and is connected to each other by an adjacent side and a connecting pipe, and a heat medium supplied from a thermal medium boiler is forced to circulate on the circumferential wall, and the processed material introduced through the inlet is forcibly transferred by a lead screw. Drying furnaces installed in at least one or more stages with heating elements that are physically dried by heat generation of the heat medium; A mixer for blending the dry matter to be treated with the binder which is connected to the outlet of the rear stage drying furnace and discharged from the outlet; A grinder provided between the last drying furnace of the drying furnaces and the mixer to grind the workpiece to be discharged from the drying; A compression molding machine for molding a workpiece to be fed from the mixer and forcedly forced through the feeder into a granular shape using a pair of molding rolls; And a deodorizer for treating malodors generated during the drying process by being installed at each of the drying furnaces, and by heating the sludge or waste water having high moisture content, which is inevitably generated by sedimentation in sewage or water purification process. Drying and compacting process results in minimal volume.

The present invention achieves a series of drying process of sludge using at least one stage heating furnace using heat medium and crushes dry sludge after completion of drying. Of course, it has the effect of reducing the volume to a minimum, making it easy to store and transport and improve the utilization of renewable resources.

In addition, the present invention by simply collecting the sludge, it is possible to preserve the water quality of the groundwater and to prevent environmental pollution.

Next, an embodiment of the present invention will be described. FIG. 1 shows a sludge treatment apparatus according to the present invention in detail.

Sewage / wastewater treatment or purified water treatment plant, such as wastewater from general household sewage or various industrial sites, separates and collects suspended matter such as sand or various foreign matters in the incoming raw water, and adjusts the flow rate for controlling the water level or quantitative treatment of the treatment plant. The desired water treatment is achieved through several stages, such as the inlet (inlet), sedimentation, and aeration tanks.

As an example, the water treatment process includes removing the suspended matter in the incoming raw water, decomposing and sedimenting using activated sludge, and activating aerobic bacteria propagation by receiving oxygen from an aeration tank for the supernatant filtered out in this precipitation. After that, the supernatant is separated from the secondary sedimentation basin and discharged to the stream through the chemical treatment of the uppermost water filtered through the tertiary sedimentation basin or filter paper.

In this water treatment process, sediments are inevitably generated during the decomposition and sedimentation of waste water by removing suspended solids in raw water and using activated sludge. It is to provide a sludge treatment apparatus for treating water to a minimum volume through drying and compression process by heating.

The sludge treatment apparatus of the present invention will be described in detail. In the figure, 10 are drying furnaces.

The drying furnace 10 is installed in at least one multi-stage to perform the continuous and repeated drying process of the object to be processed, this drying furnace 10 is adjacent to each other having an array of several forms such as parallel or in series It is mutually connected by the side and the connection pipe 12.

In addition, the inlet 14 and the outlet 16 for inflow and outflow of the to-be-processed object are provided in the front side and the rear end side of the drying furnace 10, respectively.

In addition, the drying furnace 10 is formed in a hollow tubular shape to force the to-be-processed object to be transported by the lead screw 17 therein, and a heat medium supplied from the heat medium boiler 18 is forced to the circumferential wall thereof. The heating element 20 is configured to physically dry the to-be-processed object by the heat generation of the heat medium while circulating. At this time, the heat medium is also circulated to the inside of the lead screw 17 to increase the drying efficiency of the treatments, of course, to prevent the phenomenon of sticking to the surface of the lead screw 17 and to facilitate the transfer of the treatment.

And immediately below the exit 16 of the drying furnace 10 of the last stage of the mill to crush the workpiece to be discharged from the outlet 16 to a certain size to achieve a smooth blending in the mixing process to be described later Has (22).

In addition, a mixer 24 is provided at the lower portion of the crusher 22 to mix a binder to be added at a predetermined ratio in order to more efficiently achieve compression molding of the workpiece to be crushed and supplied from the crusher 22 to a predetermined size.

Here, it is preferable that the grinder 22 or the mixer 24 uses a batch method.

On the other hand, the lower part of the mixer 24 is provided with a compression molding machine 26 for receiving a processed material mixed with a binder and compressing and discharging it into granules having a predetermined size.

The structure of the compression molding machine 26 is shown in detail in FIG. 2. The compression molding machine 26 carries a pair of forming rolls 26a, through the feeder 25 of forced feeding, to be processed from the mixer 24. The object to be processed is shaped into predetermined granules while being supplied to 26b).

As described above, the present invention is to dry the object to be processed through the multi-stage drying furnace 10, and the dried object to be processed by grinding and adhesive mixing, and compression molding a series of mechanical and continuous sludge treatment process Will be achieved.

In addition, the sludge treatment apparatus of the present invention further includes a conventional deodorizer 28 for treating the odor generated during the drying process in each of the drying furnaces 10.

As described above, an embodiment of the present invention has been described, but the present invention is not limited to the present invention, but may be changed within the scope of the claims.

1 is an explanatory view schematically showing the overall configuration of the sludge treatment apparatus of the present invention.

Figure 2 is a partial cross-sectional view showing the configuration of a compression molding machine applied to the sludge treatment apparatus of the present invention.

Explanation of symbols for the main parts of the drawings

10: drying 12: connector

14: entrance 16: exit

17: lead screw 18: thermal medium boiler

20: heating element 22: crusher

24: Mixer 26: Compression Molding Machine

Claims (4)

delete delete It is a drying process by heating the processed materials including the sludge or the high water content wastewater generated from sewage or water purification process, It has an inlet and an outlet for accepting and discharging the object, and is formed in a hollow tubular shape and connected to each other by an adjacent side and a connecting pipe, and a heat medium supplied from a thermal medium boiler is forced to circulate on the peripheral wall thereof. At least one or more multistage drying furnaces having heating elements which are physically dried by heat generation of the heat medium while being forcibly conveyed by the lead screw through the inlet; A mixer for blending the dry matter to be treated with the binder which is connected to the outlet of the rear stage drying furnace and discharged from the outlet; A grinder provided between the last drying furnace of the drying furnaces and the mixer to grind the workpiece to be discharged from the drying; A compression molding machine for molding a workpiece to be fed from the mixer and forcedly forced through the feeder into a granular shape using a pair of molding rolls; And A deodorizer mounted on each of the drying furnaces to treat odor generated during a drying process; Sludge treatment apparatus characterized in that it has been provided. The method of claim 3, wherein Sludge treatment apparatus further comprising the heat medium is circulated inside the lead screw (17).

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