JPH05106218A - Disposal method for waste sludge for construction work - Google Patents

Abstract

PURPOSE:To perform dehydration quickly, and increase strength, and lower a disposal cost by adding additive material made from incinerated sludge in a paper manufacturing plant, with contained specific component, to waste sludge along with construction work using sediment and water. CONSTITUTION:The ashes of incinerated paper sludge to be generated in a paper manufacturing factory are burnt up again at 800-950 deg.C for 30-40 minutes, and the additive material of a pulverulent body with the main body of SiO2: 35-55%, Al2O3: 30-40%, MgO: 5-15%, and CaO: 1-10%, and with contained Fe2O3 or the like is prepared. After that, the additive material of 50-500kg, preferably, 15-450kg for 1m<3> of waste sludge in the construction work using sediment and water are added to be agitated. Then, with the porous additive material, solid/ liquid separation is promoted, and a water content quantity is lowered in a short time, and consistency and strength sufficient for carrying are obtained, to be quickly carried and discharged. Besides, when sludge to be carried is set with the main body of bentonite, then it is desirable for slurry with the added additive material to be pressed for dehydration with pressure equal to or higher than 1kgf/cm<2>.

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 mud discharged from a construction work that uses mud water in an underground continuous wall or pile construction work.

[0002]

2. Description of the Related Art Cement bentonite or bentonite muddy water is often used for stabilizing underground walls in underground continuous walls and pile construction work. In this case, the treatment of slurry-like mud has recently become a big problem.

That is, due to the difficulty of securing landfill sites or disposal sites in recent years, attempts have been made to solidify this type of mud to reduce its volume and to use it for paving materials. Has been done.

On the other hand, when the solidification treatment is not performed,
Alternatively, as a pre-stage of the solidification treatment, it is necessary to dehydrate the discharged mud for transportability. That is, FIG.
As shown in Fig. 4, when the pile is formed by the pile drilling machine 1, the hole wall stabilizing slurry is used, and the generated mud 2 is temporarily stored in the pit 3 and taken out and piled on the ground 4
Then, let it stand for a day or a few days, let it dehydrate naturally, and increase its strength to 2
The dump truck 5 transports the waste to about 3 kg / cm ² at the disposal site. In the case of bentonite muddy water, it is carried out directly to the disposal site by the vacuum car 6 without being naturally dehydrated.

The natural dehydration is carried out in order to prevent the outflow of water during transportation of the dump truck and to reduce the volume or increase the strength. Also,
Natural dehydration is also effective when an additive such as a coagulant is added later for treatment, or for further solidification treatment.

[0006]

However, in order to obtain a strength of 2-3 kg / cm ² or more in natural dehydration, at least 1 is required.
It usually takes a few days a day, which is extremely inconvenient if a natural construction site cannot be secured in a small construction site.

On the other hand, although a flocculant or a dehydrating agent can be added to accelerate the separation of the muddy water slurry or dehydration, the price of this type of flocculant or dehydrating agent accounts for the treatment cost. Is so large that it is rarely used, except in special cases.

[0008] Therefore, an object of the present invention is to provide a treatment method which is intended to dehydrate at an early stage and to increase the strength and which is inexpensive in treatment cost.

[0009]

[Means for Solving the Problems] The above-mentioned problem is to add an additive material consisting of sludge incineration ash in a paper mill mainly composed of the following components to the discharged mud accompanying construction work using muddy water. Can be solved with. _{Si0 2: 35~55%, Al 2} O 3: 30~40%, MgO: 5 ~15%,
CaO: 1-10%.

In this case, it is desirable to add 50 to 500 kg of the additive material to 1 m ^{3 of} mud. When the carried-out mud is mainly composed of bentonite, it is desirable to subject the added slurry to pressure dehydration treatment at a pressure of 1 kgf / cm ² or more.

[0011]

In the present invention, an additive material composed of sludge incineration ash in a paper mill is used. In the past, this additive material was either discarded or had limited applications such as roadbed materials and mortar extenders.

However, according to the findings of the present inventors, as shown in the micrograph of FIG. 3, it is porous, and therefore exhibits excellent dehydration performance and early strength increase. Therefore, when it is added to the mud discharged from the construction work, solid-liquid separation is promoted, the water content decreases in a short time, and the consistency and strength are sufficient for transportation. As a result, at the construction site, for example, after adding the additive material of the present invention to a pit and stirring with a stirrer or a hydraulic excavator, the material can be quickly discharged and transported by a dump truck.

[0013]

EXAMPLES The present invention will be described in more detail below with reference to examples. First, the additive material according to the present invention will be described in detail. In paper mills, there are many fillers such as calcium carbonate, silica, magnesium sulfate, vanadium sulfate, kaolin clay,
Add talc, etc. to make paper. In this papermaking process,
So-called paper sludge is generated. This paper sludge is incinerated in, for example, a fluidized incinerator. This incinerated ash has a black color and is applied to landfills, fertilizers, cement extenders, etc. However, when the incinerated ash is re-burned at about 800 to 950 ° C. for about 30 to 40 minutes, organic matter and unburned carbon are removed, and a white granular material having a fine particle size is obtained. This powder is an additive material targeted by the present invention.

[0014] The additive material, Si0 _2: 35~55%, Al
₂ O ₃ : 30 to 40%, MgO: 5 to 15%, CaO: 1 to 10% are main components, and Fe ₂ O _{3 and the} like are further included. However, impurities such as mercury, cadmium, lead, arsenic, cyanide, and hexavalent chromium are below the detection limit, and there is no problem in disposal. Table 1 shows an example of the particle size distribution.

[0015]

[Table 1]

The volumetric weight of No. 1 is 420 to 500 kg.
/ M ³ , No. 2 has a weight of 500 to 590 kg / m ³ , No 3
Has a volume weight of about 350 to 430 kg / m ³ . The loss on ignition is 0.20% or less in all cases.

50% of the additive material is added to 1 m ^{3 of} the mud discharged from the construction work using the mud.
~ 500 kg, more preferably 150-450 kg. The addition of the additive material can be performed, for example, in the pit 3 of mud or an appropriate container (not shown) in which mud is charged. When added, it is desirable to stir with a hydraulic excavator or stirrer. In addition to the additive material of the present invention, it is effective to add another material, for example, a polymer water absorbing agent in an amount of about 5 to 30 kg to enhance the dehydration property. Although it depends on the properties of the mud, especially the water content, it can be brought into a state of low fluidity within a few hours to a day and can be transported as it is by a dump truck.

The effects of the present invention will be clarified with reference to various examples. (Example 1) Consistency and uniaxial compressive strength were measured while changing variously the addition amount of the additive material having substantially the same particle size distribution as No. 2 to the piled mud having the composition shown in Table 2 below. However, the results shown in Table 3 were obtained.

[0019]

[Table 2]

[0020]

[Table 3] According to this result, it was found that when the additive amount of the additive material was 150 kg or more, the consistency was such that it could be transported by the standard dump truck, and the uniaxial compressive strength increased with the increase of the additive amount. It was also found that when the polymeric water-absorbing agent was added in an amount of about 150 to 300 g together with the additive material of the present invention, the same consistency as when the additive material of the present invention was added at about 0.6 to 0.75 m ³ was obtained. is doing.

(Example 2) A bentonite-based stabilizing solution is used for constructing underground walls and piles. Conventionally, the used stabilizing solution (slurry) is transported and discarded by a vacuum vehicle, but it can be transported by a dump truck by dehydrating the stabilizing solution with a filter press or the like. However, a dewatering device such as a filter press requires a large amount of equipment, and the equipment cost and the operating cost increase. Therefore, it is effective to stop the water supply without using the dehydrator.

Therefore, bentonite-deteriorated mud having the composition shown in Table 4 was permeated through the layer of the additive material of the present invention at atmospheric pressure and a pressure of 2 kgf / cm ² , and as shown in FIG. Dehydration characteristics were obtained when a 870 kg sand layer was used as a filtration layer and a muddy water-adjusted slurry obtained by adding the additive material of the present invention to bentonite-deteriorated muddy water was permeated under atmospheric pressure and a pressure of 2 kgf / cm ^2. I checked.

[0023]

[Table 4]

However, it has been found that the dehydration performance at atmospheric pressure is not so large that the dehydration property is enhanced by applying a pressure of 1 kgf / cm ² or more, especially 2 kgf / cm ² or more. Therefore, as shown in FIG. 2, it has been found that it is effective to form a sand filtration layer in a pressurizing container to achieve pressure dehydration. Further, the additive material of the present invention mixed with bentonite after dehydration is effective for landfill material, embankment material and the like. In addition, at the time of dehydration, it is possible to further add an inorganic coagulant such as calcium chloride or an organic coagulant in order to enhance the dehydration property.

Example 3 After dehydration, the water content is 50% to 80%.
% Solid content is put into a concrete mixer, 0.01 to 1.0 weight% of acrylic fiber 3 to 10 denier and 5 to 35 cm of the weight ratio excluding moisture of the solid content are mixed, and the unpaved by a belt conveyor or air pressure feeding. When placed on a soft road and rolled, it had toughness and a simple road that could withstand the running of a vehicle was created. Taking into consideration the dispersibility of acrylic fibers, pneumatic driving was superior to the driving device. Also, mixing was omitted and long fibers were added near the casting of the solid content, but the same effect was obtained. Furthermore, it has been found that when fibers are mixed into the additive material simple substance of the present invention, it scatters during drying, so that it is not suitable. However, the addition of a small amount of bentonite and / or cement solved this problem. Moreover, it was possible to handle the washing water of the quarry where the components are the same as the wastewater.

(Example 4) In the mortar spraying method using compressed air, when the additive material (sludge incineration ash) of the present invention was added to the mortar by compressed air and the mortar was pumped into the hose, the frictional force in the hose was found. Is reduced,
It was possible to prevent the blockage in the middle of the hose, which was easy to occur in the past, and improve the transportability of mortar. Further, the surface of the mortar sprayed while adding the additive material of the present invention, the additive material rapidly absorbs the excess water in the mortar and accelerates the hardening of the mortar surface, thus suppressing the sagging of the sprayed surface. It has been found that spraying work can be performed easily even on steep slopes.

(Example 5) When added and mixed as an extender for mortar, the specific gravity of the added material is smaller than that of mortar, so that the weight of the mortar as a whole is reduced, the discharge force by compressed air is improved, and the conventional pumping distance is extended. I was able to. Therefore, spraying at a high place, which was difficult in the past, was possible. Further, when the mode of Example 4 was carried out at the same time, the transportability was improved and the ejection force of the mortar could be further improved.

(Example 6) When used as a fine aggregate for mortar, when the additive material of the present invention is mixed in place of part or all of the sand, the additive material is not as strong as sand and the mortar Although the strength is low, the specific gravity is small, so that it is possible to reduce the weight of the entire mortar, and it is possible to improve the discharge force and the carry-out property. It was found that it is effective for mortar spraying that does not require strength. Furthermore, the additive material rapidly absorbed the water in the mortar, so that the hardening could be accelerated.

Other applications of the additive material of the present invention include the following. 1. Waste mud mixed with cement If cement is mixed, it hardens over time, so either use it as an unfilled backfill as it is, or reinforce the fiber etc. as in Example 1. By adding a material, it can be used as a simple pavement, a reinforced soil material, or a backfill material. The amount of fiber added was the same as in Example 6 and there was no inconvenience, but the same effect can be obtained even if the amount of fiber is reduced by the setting strength of cement.

2. Substitute for fine aggregate in general civil engineering When used as a substitute for fine aggregate (sand), it becomes a lightweight and highly permeable material, which is the characteristic of sludge incineration ash, and it is a fill material, backfill material, roadbed / roadbed. Suitable for wood. For example, it can also be used for paving sand for interlocking blocks.

3. Greening base material When the additive material of the present invention is used as a part of the spray material, it is possible to improve the extender material, the pH adjusting agent, the water retention agent, and the ventilation / water permeability. Especially suitable for construction on acidic soil. When using it in a general place, adjust the pH depending on the amount mixed.

4. Filtration of domestic kitchen miscellaneous wastewater When the additive material is used for domestic miscellaneous wastewater, it is possible to neutralize the acid side wastewater, and it is particularly effective for filtering oily substances. Furthermore, this filtration device is made into a cartridge type
It is possible to make fertilizer by utilizing the fact that it is a nutrient rich soil.

5. Measures against Acid Rain The features of the additive material of the present invention are that it is alkaline and porous. Utilizing this point, sludge is packed in a bag with good water permeability in a lake contaminated with acid rain, or sprayed to neutralize the acidity. It may be mixed with lime or the like in order to impart neutralization durability. After neutralization, the porosity of the additive material provides a favorable environment for the growth of beneficial microorganisms and helps activate lakes.

6. Filtration of oily substances (waste oil) Regarding filtration of oily substances, it was found that domestic wastewater has an adsorption effect. Similarly, waste oil discharged from a factory or the like has a similar effect, and can be treated with a simple device.

7. Artificial beach Sludge incineration ash can be used for artificial beach sand after being used for neutralization or after being neutralized. The porous, white shape gives a landscape similar to that of coral sand.

[0036]

As described above, according to the present invention, it is possible to provide a treatment method capable of performing dehydration at an early stage, increasing the strength, and being inexpensive in treatment cost.

[Brief description of drawings]

FIG. 1 is a schematic diagram of a treatment mode of cement bentonite mud or bentonite mud.

FIG. 2 is a perspective view of a mode of pressure dehydration.

FIG. 3 is a photomicrograph of an additive material according to the present invention (magnification 2000
Times).

[Explanation of symbols]

 1 ... Pile driller, 2 ... Mud, 3 ... Pit.

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] September 3, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Claims

[Correction method] Change

[Correction content]

[Claims]

2. The additive material is added in an amount of 50 to 500 k per 1 m ^{3 of} mud.
The method for treating discharged mud in construction work according to claim 1, wherein g is added.

[Procedure amendment]

[Submission date] October 16, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Brief description of the drawing

[Correction method] Change

[Correction content]

[Brief description of drawings]

FIG. 1 is a schematic diagram of a treatment mode of cement bentonite mud or bentonite mud.

FIG. 2 is a perspective view of a mode of pressure dehydration.

FIG. 3 is a micrograph (magnification: 2000 times) showing a particle structure of an additive material according to the present invention.

[Explanation of symbols] 1 ... Pile drilling machine, 2 ... Mud, 3 ... Pit.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Nobuo Sugita No. 2-35 Kudankita 4-chome, Chiyoda-ku, Tokyo Inside LITE Industry Co., Ltd. (72) Takashi Endo 4- 2-35 Kudankita, Chiyoda-ku, Tokyo No. LIGHT Industrial Co., Ltd. (72) Inventor Shunkichi Chikita 4-3, Kudankita 4-chome, Chiyoda-ku, Tokyo No. 35 Light-Industry Co., Ltd. (72) Jiro Itoi 4-4-2 Kudankita, Chiyoda-ku, Tokyo No. 35 Light Industry Co., Ltd.

Claims (3)

[Claims] 1. Discharge of construction work, characterized in that an additive material consisting of sludge incineration ash in a paper mill mainly consisting of the following components is added to discharged mud accompanying construction work using muddy water. processing method of _{mud, Si0 2: 35~55%, Al} 2 O 3: 30~40%, MgO: 5 ~15%,
CaO: 1-10%. 2. The additive material is added in an amount of 50 to 50 per 1 m ^{3 of} mud.
The method for treating mud discharged from construction work according to claim 1, wherein 0 kg is added. 3. The method for treating discharged mud in a construction work according to claim 1, wherein the carried-out mud is mainly composed of bentonite, and the slurry after addition is subjected to pressure dehydration treatment at a pressure of 1 kgf / cm ² or more.