JP2003305496A - Method for treating alkaline muddy soil - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for treating alkaline muddy soil, by which alkaline muddy soil can be modified to have the recyclable property by lowering the pH of the alkaline muddy soil without using a large quantity of an acid substance. <P>SOLUTION: The alkaline muddy soil containing cement particles is brought into contact with the gaseous carbon dioxide generated from solid carbon dioxide. Otherwise, the contact area of the alkaline muddy soil with gaseous carbon dioxide in the air is increased by adding a macromolecular flocculant to the alkaline muddy soil to coagulate it. As a result, the calcium hydroxide generated by the hydration reaction of the cement contained in the alkaline muddy soil becomes calcium carbonate by reaction with the carbonic acid dissolved in the muddy soil to neutralize the alkaline muddy soil. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for treating alkaline mud by lowering the pH of the alkaline mud so that the alkaline mud can be recyclable.

[0002]

2. Description of the Related Art In a method of excavating soil while injecting cement (for example, underground wall construction method, SMW construction method, RJG construction method, etc.), alkaline mud is generated. In addition, even in construction sites such as dredging and shield excavation, in order to improve dredged soil and excavated soil with high water content, for example, by adding and mixing cement and cement-based solidifying agent, It may be solidified, and in this case also alkaline mud is generated. Traditionally, this alkaline mud is
It was landfilled as industrial waste. However, in recent years
The remaining years of landfill sites are tight, it is difficult to secure a disposal site, and landfill disposal costs are rising, making it difficult to landfill mud. On the other hand, the Ministry of Land, Infrastructure, Transport and Tourism has enforced the Construction Material Recycling Law, and it is recommended that the soil generated from construction be recycled instead of being landfilled.

For this reason, alkaline mud is being recycled like other construction muds, but unless the strength expressed by the corn index is 200 kN / m ² or more, the strength is sufficient for recycling. The alkaline mud is treated as a waste. Therefore, when recycling, it is decided to add various solidifying agents to the alkaline mud to solidify it to an appropriate strength.

However, if the alkaline mud is solidified as it is, it is not suitable for plant growth because of its high pH, and its use for recycling is limited. In addition, there is a concern that alkaline components will elute underground due to permeation of rainwater. Therefore, in order to eliminate such problems, sulfuric acid band, PA
The alkaline mud is neutralized by adding an acidic substance such as C or dilute sulfuric acid.

[0005]

In this case, it goes without saying that the alkali cannot be sufficiently neutralized if the amount of the acidic substance to be added is small, but it is dissolved in water in the solid content of the alkaline mud. When a substance that makes mud alkaline by reacting with water or water is included, even if the alkaline mud is temporarily neutralized, such a substance dissolves in water or reacts with water, The pH increased again and the mud became alkaline, which was an obstacle to the expansion of recycling applications. On the other hand, in order to suppress the increase in pH over time, it may be possible to add an acidic substance, but this requires handling a large amount of acidic substance, resulting in poor workability.

[0006] The object of the present invention is to remove p of alkaline mud without requiring a large amount of acidic substances that have been conventionally used.
An object of the present invention is to provide a method for treating alkaline mud that can reduce H and reform the alkaline mud to a recyclable property.

[0007]

The invention according to claim 1 is
The feature is that the carbon dioxide generated from solid carbon dioxide is brought into contact with the alkaline mud. According to the invention of claim 1, by bringing the carbon dioxide (carbon dioxide gas) generated from the solid carbon dioxide (dry ice) into contact with the alkaline mud, the carbon dioxide is dissolved in the water content of the alkaline mud to generate carbon dioxide. It is generated and carbonic acid neutralizes the alkaline mud. And dry ice is easy to handle except that it is at a low temperature, and by mixing dry ice directly with alkaline mud or blowing carbon dioxide gas generated from dry ice onto alkaline mud, Neutralization can be performed, and workability in neutralizing alkaline mud can be improved.

[0008] Carbon dioxide is generated as a by-product in industrial production such as ammonia production. Dry ice is produced by using this by-product carbon dioxide. Carbon dioxide gas is released into the atmosphere, and if dry ice is used for cooling, for example, it is finally released into the atmosphere as carbon dioxide gas. However, when it is used for neutralization of alkaline mud, carbon dioxide turns into a carbonate, the release of carbon dioxide into the atmosphere is suppressed, and the influence of carbon dioxide on the environment can be reduced. If dry ice is produced from carbon dioxide contained in the air, the concentration of carbon dioxide in the air can be reduced.

The invention according to claim 2 is characterized in that the alkaline mud is aggregated with a polymer flocculant, and the aggregated alkaline mud is contacted with gaseous carbon dioxide generated from solid carbon dioxide. According to the second aspect of the present invention, by agglomerating the alkaline mud with the polymer flocculant, fine pores are generated in the alkaline mud and the contact area between the alkaline mud and the air is increased. Therefore,
When the carbon dioxide generated from dry ice is brought into contact with the alkaline mud, the carbon dioxide can be efficiently brought into contact with the alkaline mud.

As a result, even if the alkaline mud is left in the air containing the carbon dioxide gas generated from the dry ice, for example, even if the alkaline mud is not mixed with the dry ice, the neutral mud is neutralized. Can be made. In addition, since carbon dioxide is present in the air, although a trace amount, even after the neutralization of alkaline mud by carbon dioxide generated from dry ice is stopped,
The neutralization reaction can be continued by carbon dioxide gas in the air.For example, when there is a solid content such as cement particles that produces an alkaline component for a long period of time in alkaline mud, the solid content after neutralization changes from the solid content. It is possible to prevent an increase in pH due to the generation of alkaline components.

The invention according to claim 3 is characterized in that an acidic substance different from carbon dioxide is added to and mixed with the alkaline mud, and gaseous carbon dioxide generated from solid carbon dioxide is brought into contact with the alkaline mud. .
According to the third aspect of the present invention, carbon dioxide generated from dry ice and an acidic substance other than carbonic acid are used to neutralize the alkaline mud, so that only the conventionally used acidic substance is neutralized. Than the above, it is possible to reduce the amount of the acidic substance used and improve the workability of neutralizing the alkaline mud. Further, by using carbon dioxide gas and other acidic substances, it is possible to efficiently neutralize the alkaline mud and shorten the time required for the neutralization treatment.

According to a fourth aspect of the invention, an alkaline mud is mixed with an acidic substance different from carbon dioxide, and the alkaline mud is aggregated with a polymer flocculant.
It is characterized in that gaseous carbon dioxide generated from solid carbon dioxide is brought into contact with the aggregated alkaline mud. According to the invention of claim 4, the contact area between the carbon dioxide gas and the alkaline mud is increased by agglomerating the alkaline mud as described above, and the alkaline mud is efficiently neutralized with the carbon dioxide. Further, by using an acidic substance other than carbon dioxide gas, neutralization can be made efficient, and the alkaline mud can be neutralized in a short time.

The invention according to claim 5 is the method for treating alkaline mud according to any one of claims 1 to 4, wherein the solid carbon dioxide is added to the alkaline mud and mixed to obtain the alkaline solution. It is characterized in that the carbon dioxide generated from the solid carbon dioxide is brought into contact with the mud. According to the invention of claim 5, the alkaline mud can be efficiently contacted with the carbon dioxide gas generated from the dry ice by directly mixing the dry mud with the alkaline mud, and the alkaline mud can be removed in a short time. Can be sexualized.

The invention according to claim 6 is characterized in that the alkaline mud is aggregated with a polymer flocculant. According to the invention described in claim 6, by agglomerating the alkaline mud with the polymer flocculant, fine gaps are generated in the alkaline mud, and the contact area between the alkaline mud and the air is increased. Therefore, it becomes possible to efficiently contact the carbon dioxide gas in the air with the alkaline mud. When carbon dioxide gas dissolves in the water content of the alkaline mud, carbonic acid is generated, and the carbonic acid can neutralize the alkaline mud. The rate of neutralization of alkaline mud by carbon dioxide gas in the air is not necessarily high, but it is not troublesome if the alkaline mud is left alone and the neutralization proceeds continuously. In addition, due to this, an alkaline component is generated from the solid content of the alkaline mud, and high p
Even if H is maintained, the alkaline mud is continuously neutralized by carbon dioxide in the air, and when alkaline mud containing cement is neutralized with the conventionally used acidic substance. As described above, it is possible to prevent the pH of the mud from rising after being neutralized.

The invention according to claim 7 is the method for treating alkaline mud according to any one of claims 1 to 6, characterized in that the alkaline mud contains cement particles. When the alkaline mud contains cement particles, a large amount of calcium oxide is contained in the cement particles, and the calcium oxide is dissolved in the water of the mud, and due to the hydration reaction of the cement, the alkaline mud is hydrated. Calcium is formed and the mud becomes alkaline.
Then, when calcium hydroxide reacts with the carbonic acid dissolved in the water of the mud, calcium carbonate having a low solubility in water is generated, and the alkaline mud is neutralized, and calcium carbonate is precipitated from the water of the mud, The calcium ions that cause the mud to become alkaline are in a stable state. Therefore, by including the cement particles, the mud that has become alkaline can be suitably neutralized by carbonic acid.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the method for treating alkaline mud of the present invention will be described in detail below. In the method for treating alkaline mud in this embodiment, the present invention contains cement particles, the present invention is mainly applied to neutralization treatment and solidification treatment of mud that becomes alkaline with the hydration reaction of cement. However, the present invention is not limited to the treatment of alkaline mud containing a cement component,
It is also applicable to the treatment of other alkaline mud. Also,
Mud is composed mainly of earth and sand, is not dried, and contains water.

Cement is, for example, Portland cement, and Portland cement is limestone,
Manufactured from clay, silica, iron raw materials, etc., it contains calcium oxide, silicon dioxide, aluminum oxide, ferric oxide, etc. as clinker components.These ones have sulfur trioxide added by adding gypsum. It is the main chemical component of Portland cement. The cement contained in the alkaline mud may be various well-known mixed cements, well-known special cements, etc. other than well-known various Portland cements. In addition, alkaline mud containing cement particles is, for example, to improve the soil generated by the method of excavating the soil while injecting cement, or the soil with a high water content that occurs when the tunnel is constructed by the dredging or shield method. , Cement or cement-based solidifying agent is added.

In the alkaline mud treatment method of this embodiment, the alkaline mud containing the cement particles as described above is brought into contact with carbon dioxide gas (gaseous carbon dioxide) to neutralize the alkaline mud. The method of contacting the alkaline mud with carbon dioxide gas is to add a polymer coagulant to the alkaline mud to aggregate the alkaline mud.

As the polymer coagulant, any coagulant capable of agglomerating mud, that is, one capable of agglomerating solid particles such as sediment particles contained in the mud into granules may be used, and a known polymer coagulant is used. be able to. Aggregation of the alkaline mud can be performed by adding a polymer flocculant to the alkaline mud in a mud tank or a mud accumulation site, for example. At this time, the alkaline mud to which the polymer flocculant is added may be agitated by a shovel-based heavy machine, a heavy machine in which an agitator is attached to the tip of the arm, or the like.

Further, the alkaline mud to which the polymer flocculant is added may be agitated by various mixers or an agitator such as a mixing tank. Then, as the stirring device, the mud is stirred while being conveyed by its own weight or the stirring force of the stirring device,
It is also possible to use a continuous stirrer having a structure in which the polymer flocculant is mixed with the mud to continuously carry out the mud,
A batch type stirring device may be used. In addition, when the mud is carried into the agitator or at a stage before that, a mesh filter member removes stones and gravel contained in the alkaline mud, and the stone and gravel are effectively used separately from the mud. It may be done.

Then, by agglomerating the alkaline mud, a fine gap is formed in the alkaline mud,
It is possible to increase the contact area with the air, efficiently contact the carbon dioxide gas in the air with the alkaline mud, and bring the carbon dioxide gas in the air into the interior of the alkaline mud.

As a result, carbon dioxide gas in the air is efficiently dissolved in the water of the alkaline mud to generate carbonic acid, and the carbonic acid reacts with calcium hydroxide existing in the water of the mud based on the cement particles of the alkaline mud. However, since the calcium ions become calcium carbonate, the alkaline mud is neutralized. Calcium carbonate, which has a low solubility in water, precipitates from the water content of the mud and is in a stable state, so that the effect on the environment is extremely small. Also,
Carbonation of alkaline mud by carbonic acid will be continued while the alkaline mud is in contact with air, and will continue efficiently if the alkaline mud is maintained in the aggregated state. Become.

As a result, the pH of the alkaline mud can be prevented from rising even if calcium hydroxide is produced from the cement particles of the alkaline mud for a long period of time. Further, carbon dioxide in the air is fixed as calcium carbonate, so that the concentration of carbon dioxide in the air can be reduced and global warming can be suppressed.

As a method of bringing carbon dioxide into contact with the alkaline mud, by placing dry ice (solid carbon dioxide) in contact with or in proximity to the alkaline mud, carbon dioxide generated from the dry ice causes carbon dioxide in the air to be emitted. The gas concentration may be increased to accelerate the neutralization reaction. The dry ice that is manufactured and sold may be transported and used, or an apparatus that manufactures dry ice from carbon dioxide gas at the site where the alkaline mud is neutralized may be used. An apparatus for producing dry ice from carbon dioxide gas may be used. The dry ice may have a block shape, a pellet shape, a snow shape, or the like, and any shape of dry ice may be used.

As a method for bringing the carbon dioxide gas generated from dry ice into contact with the alkaline mud, carbon dioxide gas generated from dry ice may be blown onto the alkaline mud by a blower or the like to further accelerate the neutralization reaction. Alternatively, snow-like dry ice may be sprayed. In addition, in a mud tank or a mud accumulation site, the alkaline mud may be loaded onto dry ice, and the carbon dioxide generated from the dry ice may aerate the alkaline mud from below by the carbon dioxide.

Further, the dry ice may be mixed directly with the alkaline mud so that the carbon dioxide gas generated from the dry ice is brought into contact with the alkaline mud.
In this case, the same method as in the case of mixing the polymer mud in the alkaline mud can be used, and dry ice may be mixed in the alkaline mud at the same time as the polymer coagulant.

Further, carbon dioxide generated from dry ice is brought into contact with the alkaline mud, and an acidic substance other than carbonic acid is further added to neutralize the alkaline mud by the carbon dioxide gas and the acidic substance other than carbonic acid. good.
As the acidic substance, other than carbonic acid, any substance that exerts an effect of neutralizing the alkaline mud when added to the alkaline mud, for example, aluminum sulfate, ferrous sulfate, PAC (polyaluminum chloride) , Acidic sodium sulfate, sulfamic acid, polyacrylic acid, ammonium sulfate, alum, calcined alum hydrochloric acid, sulfuric acid,
Examples thereof include nitric acid and phosphoric acid. These acidic substances may be used alone or in combination of two or more.

When neutralizing the alkaline mud with the above-mentioned acidic substance, the acidic substance is mixed with the alkaline mud by the same method as in the case of mixing the above-mentioned polymer flocculant with the alkaline mud, It is possible to neutralize alkaline mud. By using carbon dioxide gas and an acidic substance other than carbonic acid in combination, the amount of the acidic substance other than carbonic acid used can be reduced as compared with the conventional case. As a result, the amount of the acidic substance used can be reduced, and the workability of neutralizing the alkaline mud can be improved. Further, by neutralizing the alkaline mud by using carbon dioxide gas and an acidic substance together, it is possible to shorten the neutralization treatment time. The treatment of bringing carbon dioxide gas generated from dry ice into the alkaline mud and the treatment of adding an acidic substance other than carbonic acid and mixing may be performed at the same time, or an acidic substance other than carbonic acid was used. Before the treatment, a treatment using carbon dioxide gas may be performed, or after a treatment using an acidic substance other than carbonic acid,
You may perform the process using carbon dioxide gas.

In order to neutralize alkaline mud,
When using carbon dioxide generated from dry ice,
Carbon dioxide gas generated from dry ice may be brought into contact with non-aggregated alkaline mud without adding a polymer flocculant to the alkaline mud. In addition,
Also in this case, carbon dioxide gas generated from dry ice may be sprayed onto the alkaline mud, or dry ice may be mixed with the alkaline mud. in this way,
When the dry ice is mixed with the alkaline mud, the same method as that for mixing the above-mentioned polymer flocculant with the alkaline mud can be used.

When the carbon dioxide gas generated from dry ice is brought into contact with the non-aggregated alkaline mud, an acidic substance other than the above-mentioned carbonic acid may be used in combination to neutralize the alkaline mud.

The neutralized alkaline mud is
It is solidified by the hydration reaction of the contained cement particles. Incidentally, the amount of the cement component contained in the alkaline mud preferably expresses the desired strength when solidified, and if the amount of the cement component originally contained is insufficient to express the desired strength, it is alkaline. Cement or cement-based solidifying agent may be added to the alkaline mud when neutralizing the mud. Further, when the alkaline mud does not have the desired strength, a solidifying agent other than cement may be added. By making the neutralized mud have a desired strength, the mud can be reused as a building civil engineering material such as a fill or a backfill material.

The present invention is not limited to the above-mentioned embodiment, and within the scope not departing from the gist of the present invention,
Various improvements and design changes may be made. Further, in the above-mentioned embodiment, as the alkaline mud, an alkaline mud containing cement particles generated at a civil engineering and construction site was exemplified, but the alkaline mud is not limited to this, and any alkaline mud may be used. Is also good. For example,
It can also be applied to mud soil that has been soaked with alkaline waste liquid. Further, when the ground is directly kneaded with cement and a cement-based solidifying agent to improve the ground, when the ground is in the state of an alkaline mud due to the addition of the cement and the cement-based solidifying agent, this is the alkaline mud of the present invention. Alternatively, the ground may be neutralized by directly mixing dry ice with the ground.

[0033]

EXAMPLES Next, the present invention will be described in more detail by way of examples, which should not be construed as limiting the invention thereto. The alkaline mud used in the following Examples 1 to 3 and Reference Example 1 was dredged mud (water content: 50.13).
%, Specific gravity 1.516), and 200 kg / m ³ per volume
It was manufactured by adding cement so that the pH becomes 12.68 and adjusting the pH to be 12.68. Further, for stirring the alkaline mud, for example, a stirring device having a stirring blade was used.

[Example 1] In Example 1, dry ice was added in a predetermined amount to 10 liters of alkaline mud, and then mixed by stirring. Then, the pH of the alkaline mud was measured 30 minutes, 60 minutes, 90 minutes, 120 minutes and 180 minutes after the stirring was started, and the results shown in Table 1 below were obtained.

[Table 1]

Example 2 In Example 2, a predetermined amount of the polymer flocculant was added to 10 liters of the alkaline mud, and the mixture was stirred to mix the alkaline mud into granules.
Then, a predetermined amount of dry ice was added and mixed in the same manner as in Example 1. Then, the pH of the alkaline mud was measured with time in the same manner as in Example 1, and the results shown in Table 2 below were obtained.

[Table 2]

Example 3 In Example 3, the alkaline mud was aggregated in the same manner as in Example 2, and then 1 kg of aluminum sulfate as an acidic substance was added and mixed by stirring to mix the alkaline mud. The pH was lowered to 10.3. Then, a predetermined amount of dry ice was added and mixed in the same manner as in the above example. After that, the pH of the alkaline mud was measured with time in the same manner as in the above example, and
The result is as follows.

[Table 3]

Reference Example 1 In Reference Example 1, 10 liters of alkaline mud was left untreated. Then, when the pH of the alkaline mud was measured 24 hours and 240 hours after the standing, the results shown in Table 4 below were obtained.

[Table 4]

[Embodiment 4] In Embodiment 4, a polymer flocculant is added to the alkaline mud generated by the SMW method and mixed to make the alkaline mud agglomerate. It was left with the alkaline mud.
Then, after standing, the pH of each alkaline mud was measured with time. The result is shown in FIG.

In Reference Example 1, when the alkaline mud was left untreated, the pH was 12.51 after 24 hours.
Which is slightly decreased to 11.64 after 240 hours.

On the other hand, when carbon dioxide is brought into contact with the alkaline mud as in Examples 1 to 3, in any case, the alkaline mud is rapidly neutralized by the carbon dioxide. That is, dry ice is uniformly mixed in each alkaline mud, and the mixed dry ice is vaporized to generate carbon dioxide gas. Carbon dioxide permeates the details of the alkaline mud almost uniformly, and becomes carbonic acid when dissolved in the water of the mud. Then, the carbonic acid and the calcium hydroxide based on the cement particles in the alkaline mud react to generate calcium carbonate. As a result, the alkaline mud is neutralized, and the pH of the alkaline mud is rapidly lowered.

In particular, when the alkaline mud is aggregated as in Example 2, fine pores are generated in the alkaline mud, so that the contact area with the carbon dioxide gas is increased and the carbon dioxide gas is efficiently contacted with the alkaline mud. It becomes possible.
As a result, the neutralization of the alkaline mud is efficiently performed, and 60 minutes after the addition of dry ice, the alkaline mud p
H has fallen to 7.8.

Further, as in Example 3, when the alkaline mud is aggregated and then mixed with the acidic substance, the alkaline component of the alkaline mud is neutralized by the acidic substance and the pH is lowered. The pH of the alkaline mud has dropped to 7.4 60 minutes after the mixing. In other words, the neutralization treatment is made more efficient, and the time required to neutralize the alkaline mud with carbon dioxide gas is reduced. Further, in this case, since the alkaline mud is aggregated, fine voids are generated in the alkaline mud, and it is possible to reduce the amount of the acidic substance required for lowering the pH of the alkaline mud.

When the alkaline mud is aggregated as in Example 4, the contact area of the alkaline mud with the carbon dioxide gas increases, and the alkaline mud easily comes into contact with the carbon dioxide gas in the air. Therefore, even if the alkaline mud has a high pH, it is possible to continuously neutralize it by just agglomerating it and leaving it to stand. While it is about 12, the pH has dropped to around 9. In addition, the carbon dioxide in the air continuously neutralizes the alkaline mud, so that the pH of the mud after the neutralization treatment, such as when the alkaline mud is neutralized with the conventionally used acidic substance, The rise is suppressed.

As described above, according to Examples 1 to 3, the pH of the alkaline mud can be lowered in a short time, and the alkaline mud can be reformed into a recyclable property. Further, according to Example 4, the alkaline mud can be neutralized though it takes time, by aggregating the alkaline mud to facilitate contact with carbon dioxide gas in the air.

[0045]

According to the present invention, by bringing carbon dioxide into contact with alkaline mud, the alkaline mud is neutralized by carbon dioxide. Therefore, the pH of alkaline mud can be lowered without the need for large amounts of acidic substances,
The alkaline mud can be modified to have a recyclable property.

[Brief description of drawings]

FIG. 1 is a graph showing changes in pH of untreated alkaline mud and aggregated alkaline mud in Example 4.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Kaoru Ishizuka             Kurita, 3-4-7 Nishi-Shinjuku, Shinjuku-ku, Tokyo             Industry Co., Ltd. F-term (reference) 4D059 AA09 BF13 BJ01 CC10 DA15                       DA17 DA31 DA33 DA37 DA39                       DA66

Claims (7)

[Claims] 1. A method for treating alkaline mud, which comprises bringing gaseous carbon dioxide generated from solid carbon dioxide into contact with the alkaline mud. 2. A method for treating alkaline mud, which comprises aggregating alkaline mud with a polymer flocculant, and contacting the aggregated alkaline mud with gaseous carbon dioxide generated from solid carbon dioxide. 3. A method for treating alkaline mud, characterized in that an acidic substance different from carbon dioxide is added to and mixed with the alkaline mud, and gaseous carbon dioxide generated from solid carbon dioxide is brought into contact with the alkaline mud. 4. The alkaline mud is mixed with an acidic substance different from carbon dioxide, and the alkaline mud is agglomerated with a polymer flocculant to generate solid carbon dioxide in the agglomerated alkaline mud. A method for treating alkaline mud, which comprises contacting the vaporized carbon dioxide. 5. The method for treating alkaline mud according to any one of claims 1 to 4, wherein the solid carbon dioxide is added to and mixed with the alkaline mud so that the solid carbon dioxide is added to the alkaline mud. A method for treating alkaline mud, which comprises contacting the generated carbon dioxide. 6. A method for treating alkaline mud, which comprises agglomerating the alkaline mud with a polymer flocculant. 7. The method for treating alkaline mud according to any one of claims 1 to 6, wherein cement particles are contained in the alkaline mud.