KR100452145B1 - Electrodewareting Belt Press equipped with Anode Electric Drum - Google Patents

Abstract

The present invention relates to a dewatering apparatus for dewatering various sludges, and by applying a positive electrode drum capable of generating power to an electric sludge dewatering apparatus capable of minimizing the water content of the sludge in relation to the dewatering apparatus using a belt press. It is to provide an electroosmotic belt press dewatering device with a built-in bipolar electric drum that enables dehydration to be made without an electric supply device and can be easily applied to an existing belt press dewatering device.

That is, according to the present invention, the sewage, constant, and various industrial sludges (A) stored in the sludge supply tank (2) are supplied to the belt press (4) by the supply pump (3), and the supplied sludge (A) is a driving motor ( The drum 7 and the drum or perforated plate 8 are moved along the belts 6 and 6 'of the belt press 4 composed of a pair of upper and lower belts 6 and 6' driven by 5). The dehydration of the free water is performed primarily by the compression force between the belts, and the rear end of the upper belt 6 is provided with a (+) pole drum (9) and the (-) pole on the lower belt (6 '). By installing the drum or the perforated plate 8 to form an electric field, it is possible to dehydrate the combined water contained in the sludge (A), the dewatering cake is completed to dehydrate the cake collecting tank (10) In configuring the electric belt press dewatering apparatus 1 of

The support shaft bar 16 is axially coupled to the cover 9a coupled to both sides of the (+) pole drum 9 to the (+) pole drum 9 installed at the rear end of the upper belt 6, and the support shaft bar ( 16, a DC power supply 11 such as a rotary generator is installed, and the rotor of the DC power supply 11 is coupled to the support shaft rod 16 and the stator is coupled to the (+) pole drum 9 side (+). When the (+) pole drum 9 is rotated, DC power is supplied to itself when the (+) pole drum 9 is rotated electrically by electrically connecting several contact terminals 12 disposed on the inner surface of the pole drum 9 at a predetermined interval. 9) A uniform electric field is generated on the surface, and the (-) pole drum or perforated plate 8 is simply grounded on the ground, and the (+) pole drum 9 surface, such as platinum, titanium, nickel, graphite, By forming the coating layer 13 with a corrosion resistant material, it solves the safety and economic problems caused by the electricity supply.

Description

Electro-osmotic Belt Press Dewatering Device with Built-in Anode Electric Drum {Electrodewareting Belt Press equipped with Anode Electric Drum}

The present invention relates to a dewatering device for dewatering various sludges, and more particularly, to a dewatering device using a belt press, an anode drum capable of generating power to an electric sludge dewatering device capable of minimizing water content of sludge by itself. By applying this, it is intended to provide an electroosmotic belt press dewatering device with a built-in bipolar electric drum that allows dehydration to be made without a separate electric supply device, and also can be easily applied to the existing belt press dewatering device.

Wastewater treatment, the final by-product of industrial and living spaces, plays an important role in addressing environmental issues. There are various kinds of wastewater generated and can be classified into three types.

As industrial sludge from industrial sites, sewage sludge from sewage treatment plants, and purified sludge from water treatment plants, most of these sludges are currently treated by landfill and ocean dumping. However, since 2003, OECD countries cannot treat sludge by landfill and dumping at sea, so sludge should be recycled or dewatered to the extent that no leachate is generated. For this treatment, it is essential to minimize the water content of the sludge generated.

There is a need to produce breakthrough low moisture content cakes to achieve this goal. Currently, most of the sludge produced produces dewatered cakes using mechanical dehydrators such as belt presses, filter presses, and centrifugal dehydrators. However, these methods only remove free water, which can be removed by mechanical force, of bounder water and free water that are bound to particles in the sludge. In order to produce a low-water dehydration cake, the combined water must be removed. To this end, electro-dehydration techniques using electroosmotic pressure and electrophoretic principles must be introduced.

The principle of electroosmotic pressure and electrophoresis was already known in the 1920s, and the technique of applying this principle to belt presses was already introduced in the 1980s. However, the reason this technology is still not approached to practical use is that the technique of applying electric field to the sludge layer and the structure and fabrication of the anode drum have not been developed.

Meanwhile, the conventional sludge dehydrator relies on a mechanical dehydration method (dehydration by a method such as pressurization or vacuum), which removes only weakly bound free water from the distribution of water around the particles, which is in ionic bond with the particles. No binding water can be removed at all. Therefore, in order to reduce the moisture content of the dewatered sludge, the combined water must be removed. To this end, an electric field is formed in the sludge layer between the belt press and the belt, so that the negative particles move to the positive electrode, and the filtrate Dehydrated by moving to the negative polarity by the principle of electroosmotic pressure.

However, there are two methods for applying an electric field in a conventional belt press type electric dehydrating device, a method of applying to a positive electrode drum and a method of supplying (+) power to a belt in which an electrode wire is embedded. Since the power supply device 15 must be installed to supply a separate DC power as shown in FIG. 1, the installation cost is increased due to an increase in the cost of the electric equipment, and is also based on an external power supply method. Safety issues such as short circuits and contact breakouts occur at the contact area between the electricity supply device 15 and the moving electrode.

In this case, since the contact point of the (+) power source is limited to 1 point or 2 point, in this case, the area of the (+) pole drum or (+) electrode core is large, making it difficult to form a uniform electric field. There is no state of the art for the electric dehydration position (front end, middle end, rear end) of the belt dehydration, and there are various problems such as deepening of the corrosion of the positive electrode drum.

In the present invention, in the belt press dewatering device to compress the sludge between the belt and the belt when developing a positive electrode drum for efficiently applying the electric field to the sludge layer, electric field to maximize the dewatering efficiency and reduce the operating cost The present invention has been completed with a technical problem in making it possible to derive the optimum time point,

The present invention has a built-in generator capable of supplying DC power using a rotating battery inside the (+) pole drum to generate electricity in the drum when the drum rotates to supply power directly to the drum and the (-) pole side is simply grounded By doing so, it is possible to overcome the disadvantages of the economics and safety of the electric dewatering system by the conventional external power supply system, and also to be compatible with the existing electric belt press dewatering device.

1 is a schematic view showing a conventional belt press dewatering device

Figure 2 is a schematic view showing a belt press dewatering apparatus according to the present invention

Figure 3 is a cross-sectional configuration of the (+) drum applied to the present invention

4 is a side view of FIG. 3

5 is a porous plate for the (-) pole that can be applied to the present invention

Figure 6 is a negative drum that can be applied to the present invention

Explanation of symbols used in main part of drawing

1: (Electric Belt Press) Dewatering Device 2: Sludge Supply Tank

3: supply pump 4: belt press

5: Drive motor 6，6 '： Belt

7: Drum 8: Drum or Perforated Plate

9: (+) pole drum 9a: cover

10 ： Cake collection tank 11 ： DC supply device

12 ： Contact terminal 13 ： Coating layer

16: support shaft A: sludge

Figure 2 is a schematic view showing a belt press dewatering apparatus according to the present invention, in the present invention, the sewage, constant, and various industrial sludges (A) stored in the sludge supply tank (2) by the feed pump (3) 4), the supplied sludge (A) is a belt (6) (6) of the belt press (4) consisting of a pair of upper and lower belts (6) and 6 'driven by the drive motor (5). While moving along the ') by the belt pressing force between the drum (7) and the drum or the perforated plate (8) to allow dehydration of free water primarily, and the rear end of the upper belt (6) is a (+) pole drum (9) is installed and the lower belt 6 'is provided with a negative pole drum or a perforated plate 8 to form an electric field so that the combined water contained in the sludge can be dewatered and the dewatered water is completed. A well-known electric belt press dewatering plant configured to recover the cake to the cake collecting tank 10. In constituting the (1),

The (+) pole drum (9) installed at the rear end of the upper belt (6) is supported shaft rod (16) to the cover (9a) coupled to both sides of the (+) pole drum (9) as shown in Figs. ) Is coupled to the shaft, the support shaft rod 16 is provided with a direct current supply device 11, such as a rotary battery and a generator, the (+) pole drum (9) the inner surface is configured to be electrically connected to the direct current supply device (11) By arranging several contact terminals 12 at predetermined intervals, DC power is supplied to itself when the (+) pole drum 9 is rotated to generate a uniform electric field on the (+) pole drum 9 surface. , The (-) pole drum or porous plate 8 is simply grounded to the ground, etc., the surface of the (+) pole drum 9 is selectively coated with a corrosion resistant material such as platinum, titanium, nickel, graphite, etc. Form.

That is, the DC supply device 11 is a conventional DC generator, so that the rotor is located on the support shaft rod 16 and the stator is located on the drum side (not shown) so that the positive pole generated in the stator is the drum ( 9) A positive DC is provided to the contact terminal 12 disposed on the inner surface, and the negative pole generated from the rotor is grounded to the ground through the negative pole drum or the perforated plate 8, thereby providing stable DC. It will supply power.

Reference numeral 14 in the drawings shows the filtrate collecting plate.

The present invention configured as described above is used as various industrial sludges (A) generated in sewage, water and industrial sites,

The present invention is a sludge supply tank in a state in which a belt press (4) composed of a pair of belts (6) and 6 '(up and down) is driven by a drive motor (5) like a conventional electric belt press dewatering apparatus (1). Various sludges (A) stored in 2) are dewatered by pressure transfer to the supply pump (3), and the dewatered sludge cake is recovered to the cake collecting tank (10), which is introduced into the belt press (4). ) Is the water contained in the sludge A by the belt pressing force of the drum 7 and the drum or the perforated plate 8 located at the first half of the belt press 4 at the first half of the belt 6, 6 '. The free water is primarily dehydrated so that the filtrate is collected in the filtrate collecting plate 14, and the sludge A in the state where the free water is discharged primarily as described above reaches the second half of the belt press 4.

At this time, the (+) pole drum 9 is installed outside the upper belt 6, and the (-) pole is grounded to the drum or the perforated plate 8 located outside the lower belt 6 'to form an electric field. The combined water contained in the sludge (A) is positively charged due to the principle of electroosmotic pressure and electrophoresis. Sludge particles falling on the other hand, on the contrary, are negatively charged and continue to move along the upper belt 6 to be collected in the cake collecting tank 10 to complete dehydration.

According to the present invention, a DC supply device 11 such as a rotating battery and a generator is installed at the center of the (+) pole drum 9, and the DC supply device ( 11) arranged at predetermined intervals by several contact terminals 12 electrically connected to each other, and the (-) pole drum or the perforated plate 8 is configured to be simply grounded on the ground and the like. Rotating the drum (9) shaft is installed in the (16) and the stator of the DC supply device 11 is rotated along the rotor coupled to the support shaft rod 16 to produce electric power, The positive pole generated by the stator is transmitted to the contact terminal 12 disposed on the inner surface of the drum, and the negative pole generated by the rotor is passed through the negative pole drum or the porous plate 8. Since it is grounded to the ground, it supplies stable DC power. It is possible to supply power without installing the original supply device, which solves the safety problems such as short circuit and separation of contact area between the electric supply device and the moving (+) pole drum (9). ) Since several contact terminals 12 are arranged on the inner surface, it is possible to form an even electric field, and various positions for applying electricity can be selected, and platinum, titanium, nickel on the surface of the (+) pole drum 9 are provided. Since the coating layer 13 is formed of a corrosion resistant material such as graphite or the like, the life of the drum can be extended.

As described above, the present invention installs a DC supply device 11 such as a rotating battery and a generator in the center of the positive pole drum 9 so that the positive pole drum 9 rotates in the drum. To self-generate and supply power to the positive pole drum 9 directly, and the negative pole side simply needs to be grounded so that the sludge layer can be drastically improved in the dewatering efficiency of the existing belt press dewatering device 1. It is possible to apply a uniform electric field to the, and also to solve the safety and economic problems caused by the power supply, the following effects can be obtained.

1) By supplying electricity by the drum itself, it is possible to solve the problem of safety caused by short circuit or short circuit of the contact part when supplying electricity by sliding contact as in the prior art. (There is a risk of leakage due to the high humidity around the device where the actual dehydration device is installed.)

2) There is no need to install a separate DC power supply, so it is very economical because installation cost and operation cost can be reduced.

3) The structure of the dewatering system is simple.

4) Since positive power is supplied through the contact terminal 12 mounted in each sector inside the drum, it is possible to supply electricity uniformly so that the electric field can be uniformly applied to the sludge layer, which is very effective in producing low moisture content cake. to be.

5) By applying the electric field to the rear end of dehydration, it is possible to solve the problems such as the increase of operating cost and complexity of the system in the installation method applied to all the existing areas.

6) By coating the surface of the (+) electrode drum with a corrosion resistant material it can prolong the life through the prevention of drum electrical corrosion.

7) It can be applied to the existing electric belt press dewatering device in a very simple way, so it can be used without replacing the equipment.

Claims (1)

Various industrial sludges (A) stored in the sludge supply tank (2) are supplied to the belt press (4) by a supply pump (3), and the supplied sludge (A) is a pair of upper and lower belts driven by the driving motor (5). The belt is compressed between the drum 7 and the drum or the perforated plate 8 while traveling along the belts 6 and 6 'of the belt press 4 composed of (6) and 6'. The upper end of the upper belt 6 is provided with a positive electrode drum 9 and the lower belt 6 'is provided with a negative electrode drum or a perforated plate 8 to form an electric field. In the well-known electric belt press dewatering apparatus (1) configured to dewater the combined water contained therein, and the dewatered dehydrated cake is recovered to the cake collecting tank (10), The support shaft bar 16 is axially coupled to the cover 9a coupled to both sides of the (+) pole drum 9 to the (+) pole drum 9 installed at the rear end of the upper belt 6, and the support shaft bar ( 16) install a DC supply device (11) such as a rotary generator, The rotor of the DC supply device 11 is coupled to the support shaft rod 16, the stator is coupled to the (+) pole drum (9) side several contacts arranged at predetermined intervals on the inner surface of the (+) pole drum (9) It is electrically connected to the terminal 12 so that when the (+) pole drum 9 is rotated, DC power is supplied by itself so that a uniform electric field is generated on the (+) pole drum 9 surface. The pole drum or the porous plate 8 is simply grounded on the ground, etc., and the positive electrode is characterized in that the coating layer 13 is formed on the surface of the (+) pole drum 9 with a corrosion resistant material such as platinum, titanium, nickel or graphite. Electro-osmotic belt press dewatering device with electric drum.