JP3423386B2 - Sludge dewatering method by direct electrolytic treatment and dewatering device therefor - Google Patents

Description

Detailed Description of the Invention

[0001]

The present invention relates to various sludges such as sludge discharged from a water and wastewater treatment plant, industrial waste sludge discharged from various facilities such as chemical industry and food industry,
The present invention relates to a method for improving the dewatering efficiency of sludge in a method for dewatering sludge using a well-known sludge dewatering method such as a press filtration method using a filter press or a belt press, or a vacuum filtration method.

[0002]

2. Description of the Related Art In the above-mentioned dehydration method, the filtration resistance of the filter cloth increases due to the fine particles of suspended sludge in the sludge, and as a result, the filtration efficiency deteriorates. In order to do so, it has been conventionally practiced to add a filter aid and a coagulant to sludge for dehydration.

That is, the filter aid is added for the purpose of adsorbing or containing suspended sludge particles in sludge to coarsen the particles, and generally, diatomaceous earth, sawdust, and fibrous materials are added. , Fly ash, etc. are used. However, such a filter aid cannot obtain its sufficient effect unless it is added to sludge in a large amount. Therefore, in place of such a filter aid, for example, aluminum sulfate ( Using a flocculant such as sulfuric acid band), polyaluminum chloride (PAC), ferric chloride,
By aggregating and coarsening suspended sludge particles in sludge, filtration resistance is reduced and dehydration efficiency is improved.

[0004]

However, in the method of performing dehydration by adding such a filter aid and a coagulant to sludge, the filter aid and the coagulant must be added. However, since the cost of the flocculant itself is high, the cost is increased as a whole. Further, since the filter aid and the coagulant added to the sludge are discharged together with the sludge, the amount of the sludge increases, which has been a problem in post-treatment such as industrial waste.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional techniques and problems, and has as its gist the following configurations (1) to (8).

[0006] (1) or press filtration method, a sludge dewatering process such as a vacuum filtration method, a method of dewatering sludge, (2) in the case of electrolytic treatment of raw sludge directly, sludge particles
When the surface of the child is negatively charged, the pH of the original sludge
Potential of suspended sludge particles by adjusting the acidity to acid side
Is adjusted near the isoelectric point, and ( 3) when the surface of sludge particles is positively charged,
Suspended sludge is adjusted by adjusting the pH of sludge to the alkaline side.
Adjusting the ζ-potential of the mud particles near the isoelectric point , thereby
A sludge dewatering method by direct electrolysis, which is characterized by increasing the sludge dewatering efficiency.

[0007]

[0008]

(4) An electrolyzer for directly electrolyzing the raw sludge to adjust the pH of the sludge, a pH meter for detecting the pH of the sludge, and the electricity based on the detection result of the pH meter. It is characterized by comprising a pH control means for controlling the energization time or the electric current of the decomposition device and a dehydrator for dehydrating the sludge supplied to the electrolyzer and adjusted to a predetermined pH. Sludge dewatering device.

(5) In order to uniformly stir and mix the sludge supplied to the sludge electrolysis treatment tank of the electrolyzer, a stirring means attached to the sludge electrolysis treatment tank is provided. ) The sludge dewatering device described in.

(6) The above-mentioned (4), wherein the other electrolytic treatment tank of the electrolyzer is provided with a stirring means.
Alternatively, the sludge dewatering device according to (5).

(7) The sludge dewatering device according to any one of (4) to (6) above, wherein the pH meter is provided in a sludge electrolytic treatment tank.

(8) The sludge dewatering according to any one of (4) to (6) above, wherein the pH meter is provided in a pipe path from the sludge electrolytic treatment tank to the dehydrator. apparatus.

That is, the inventors of the present invention have conducted intensive studies in consideration of the present situation, and as a result, directly electrolytically treat the raw sludge to adjust the pH of the raw sludge to an acidic side, so that By adjusting the ζ potential of the suspended sludge particles contained to near the isoelectric point, the cohesiveness of the suspended sludge particles improves, and the apparent particle size of the suspended sludge particles increases, which causes filtration resistance. The present invention has been completed on the finding that the amount of sludge can be reduced and the sludge dewatering efficiency can be significantly increased.

Generally, the "ζ potential" indicating the magnitude of electric charge of the particles is used. However, the suspended sludge particles contained in sludge have a negatively charged surface, and therefore the ζ potential is When the negative charge is large and the negative charge is large (that is, when the absolute value of the ζ potential is large in the negative direction), the particles repel each other and the suspended sludge particles do not aggregate. The filter cloth becomes clogged with fine particles of suspended sludge in the sludge, which increases the filtration resistance, resulting in poor filtration efficiency. Therefore, in the present invention, the pH of sludge is
By directly electrolyzing the raw sludge to the acidic side, the negative electric charge on the surface of the suspended sludge particles is neutralized, and the ζ potential of the suspended sludge particles is adjusted to near the isoelectric point. By aggregating suspended sludge particles with each other to coarsen suspended sludge particles, thereby, in a known filtration method such as a press filtration method using a filter press, a belt press, a vacuum dehydration method, a filter cloth, etc. This is a method of significantly reducing sludge dewatering efficiency by minimizing filtration resistance due to clogging and the like.

Further, depending on the suspended sludge particles contained in the sludge, such as aluminum hydroxide sludge, the surface thereof may be positively charged. Therefore, in this case, the pH of the raw sludge is adjusted to the alkaline side, and the ζ potential of the suspended sludge particles contained in the sludge is adjusted to the vicinity of the isoelectric point, thereby adjusting it to the acidic side. As in the case, it is possible to increase the dehydration efficiency.

[0017]

FIG. 1 is a schematic view of a dehydrating apparatus for carrying out the dehydrating method of the present invention, and 1 indicates the dehydrating apparatus of the present invention as a whole.

Reference numeral 2 is for temporarily storing sludge discharged from water and sewage treatment plants and various sludges to be dehydrated such as industrial waste sludge discharged from various facilities such as chemical industry and food industry. This is the sludge storage tank 2. And
Reference numeral 3 denotes a pump, and the sludge electrolysis tank 4a of the electrolyzer 4 is supplied with the sludge A from the sludge storage tank 2 via the pipe 3a by the pump 3, and the other electrolysis tank 4b is supplied with the sludge A. Water is supplied, and the sludge A is directly electrolyzed by the electrolyzer 4 to adjust the pH of the sludge. In the figure, 4c
Is a diaphragm for isolating the electrolytic treatment tanks 4a and 4b, and commercially available microfiltration membranes, ultrafiltration membranes, ion exchange membranes and the like are used, but the microfiltration membranes are economically preferable. Further, in the figure, 5 is a power source, and 6a and 6b are electrodes. As the electrodes, known titanium or stainless electrodes plated with platinum can be used.

Further, the sludge electrolysis treatment tank 4a is provided with a stirring device 7 for uniformly stirring and mixing the sludge A supplied from the sludge storage tank 2. Further, in the sludge electrolysis treatment tank 4a, a pH meter 8 for detecting the pH of the sludge A in the sludge electrolysis treatment tank 4a and the energization time or current of the electrolyzer 4 are controlled so as to have a predetermined pH. in order to,
pH control means 18 is provided. The pH control means 18 is a converter for converting the pH value measured by the pH meter 8 into an electric signal, and a control for receiving the signal from the converter and controlling the energization time or current of the electrolyzer 4. It is composed of devices.

In this embodiment, the stirring device 7 is installed only in the sludge electrolytic treatment tank 4a, but it can be installed in the electrolytic treatment tank 4b at the same time. In this case, by providing the stirring device 7 in the sludge electrolytic treatment tank 4a, it is possible to prevent the sludge from settling and prevent the sludge from adhering to the electrodes, and to provide the electrolytic treatment tank 4b with the stirring device. Thereby, it becomes possible to prevent bubbles from being generated in the vicinity of the electrodes and reduce the current efficiency.

Further, although the pH meter 8 is installed in the sludge treatment tank 4a in this embodiment, the pH meter 8 is not necessarily limited to this location, and the sludge electrolytic treatment tank 4a to the dehydrator 1 can be used.
You may install in the piping path to 0. The same applies to the place where the pH control unit 18 is installed, and it goes without saying that the pH control unit 18 may be installed in a place different from the electrolyzer 4, such as a control room.

The sludge A adjusted to a predetermined pH in the pH adjusting tank 4 is pumped by the pump 9 through the pipe 9a.
It is supplied to the dehydrator 10. As the dehydrator 10, a filter press type, a belt press type squeezing filtration device, a vacuum filtration device, or the like can be used.

In the pH-adjusted sludge thus supplied to the dehydrator 10, the ζ potential of the suspended sludge particles is adjusted to the vicinity of the isoelectric point, and the cohesiveness of the suspended sludge particles is improved, The apparent particle size of suspended sludge particles is increased, thereby reducing the filtration resistance and increasing the sludge dewatering efficiency.

On the other hand, alkaline ionized water is generated from the electrolytic treatment tank 4b, which is appropriately recovered and dehydrated.
It is efficient when used to neutralize the acidic water discharged from zero.

Using such an apparatus, p of sludge as described above is used.
In order to adjust H to the acidic side, the raw sludge is directly electrolyzed. In this case, the ζ potential of the suspended sludge particles is adjusted to near the isoelectric point, although it changes depending on the pH of the raw sludge. For this purpose, it is preferable to electrolyze the raw sludge so that the pH of the sludge after electrolysis is from the first half of about pH 5 to the first half of about pH 6, especially around pH 6.

On the other hand, when the original sludge is aluminum hydroxide sludge, etc., the surface of the suspended sludge particles contained in the sludge is positively charged. In order to adjust to the side, by directly electrolyzing the raw sludge and adjusting the ζ potential of the suspended sludge particles to near the isoelectric point, it is possible to increase the dewatering efficiency as described above.

In the case of the above embodiment, the electrolytic treatment tank 4
Although the alkaline ionized water is generated by supplying water to b, the raw sludge may be supplied instead to generate the alkaline sludge.

Example 1 (Adjusting the pH of sludge by electrolysis
(Comparison with and without preparation ) For 2 liters of raw sludge of pH 6.7 collected from the waterworks,
Electrolysis (30V, 1A electrolysis for about 2 hours, pH 6.2)
The column diameter of 9.5c was adjusted to 250ml for each of
A filtration test was carried out using a test column having m and a filtration pressure of 4 kgf / cm ² . The results are shown in Fig. 2.

As is clear from the results, a significant improvement in filterability can be recognized by directly electrolyzing sludge to produce acidic sludge.

[0030]

According to the present invention, the sludge is directly electrolyzed to adjust the pH of the sludge so that the sludge has an acid side or an alkaline side, so that the negative or positive charge on the surface of the suspended sludge particles is neutralized. By adjusting, the ζ potential of the suspended sludge particles is adjusted to the vicinity of the isoelectric point, the suspended sludge particles are aggregated, and the suspended sludge particles are coarsened.
In a well-known dehydration method such as a press filtration method using a filter press or a belt press, or a vacuum dehydration method, the filtration resistance caused by clogging of the filter cloth, etc. is minimized and the sludge dewatering efficiency is greatly improved. it can.

Further, in the method of the present invention, as in the conventional case,
Rather than adding chemicals such as filter aids and coagulants to the sludge for dehydration, the sludge pH is adjusted to the acidic side by directly electrolyzing the sludge, so the cost does not increase as in the past. The control is easy, and the amount of sludge does not increase, and it is convenient to handle even after-treatment such as industrial waste.

[Brief description of drawings]

FIG. 1 is a schematic view of a dehydrating apparatus for carrying out the dehydrating method of the present invention.

FIG. 2 is a graph comparing the filtering effects of sludge electrolyzed and non-electrolyzed sludge based on the dehydration method of the present invention.

[Explanation of symbols]

1 ... dehydrator 2 ... Sludge storage tank 3 ... Pump 3a ... pipeline 4 ... Electrolyzer 4a ... Sludge electrolytic treatment tank 4b ... Electrolytic treatment tank 4c ... diaphragm 5 ... Power supply 6a, 6b ... Electrodes 7 ... Stirrer 8 ... pH meter 9 ... Pump 9a ... Pipeline 10 ... dehydrator 18. pH control means A ... sludge

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Claims (6)

(57) [Claims] And 1. A press filtration method, a sludge dewatering process such as a vacuum filtration method, a method of dewatering sludge, in the case of electrolytic treatment of raw sludge directly table sludge particles
When the surface is negatively charged, the pH of the original sludge is acidified
The ζ potential of suspended sludge particles by adjusting the
Adjust near the point, and the surface of the sludge particles is positively charged.
When adjusting the pH of the raw sludge to the alkaline side,
Therefore, the sludge dewatering method by direct electrolytic treatment is characterized in that the ζ potential of the suspended sludge particles is adjusted to near the isoelectric point , thereby increasing the sludge dewatering efficiency. 2. An electrolyzer for directly electrolyzing raw sludge to adjust the pH of sludge, a pH meter for detecting the pH of sludge, and the electrolysis based on the detection result of the pH meter. A sludge comprising a pH control means for controlling the energization time or current of the device, and a dehydrator for dehydrating the sludge supplied to the electrolyzer and adjusted to a predetermined pH. Dehydrator. 3. A contractor provided with a stirring means attached to the sludge electrolytic treatment tank for uniformly stirring and mixing the sludge supplied to the sludge electrolytic treatment tank of the electrolyzer.
Sludge dewatering device according to Motomeko 2. 4. A sludge dewatering system according to claim 2 or 3, characterized in that it comprises stirring means in the other electrolytic cell of the electrolyzer. Wherein said pH meter, sludge dewatering device according to any one of claims 2 4, characterized in that provided in the sludge electrolytic treatment tank. 6. The pH meter is provided in a pipe path from a sludge electrolytic treatment tank to a dehydrator.
The sludge dewatering device according to any one of claims 2 to 4 .