KR19990039324A - Soil stabilization composition and waste landfill construction method using the same - Google Patents

Abstract

The present invention relates to a soil stabilizing composition and a method for forming a waste landfill using the same, comprising a soil or landfill composition comprising clay or masato in a landland cement, rubberized asphalt waterproofing solution, fly ash and calcium sulfo aluminate. It is applied directly to the soil and stabilized, and then coated with a synthetic rubber-based waterproofing material having excellent chemical resistance and durability to form a water barrier layer, which strengthens the compressive strength and permeability and gives elasticity to crack the waste landfill In addition to preventing deformation and excellent acid resistance, it is possible to prevent waste leachate leakage.

Description

Soil stabilization composition and waste landfill construction method using the same

The present invention relates to a composition for stabilizing soil and a method for constructing a waste landfill using the same, and more particularly, satisfying the mechanical and physical properties required for economic and civil engineering structures of roadbeds, subgrades or bases, and landfills of waste landfills. To improve the compressive strength and permeability, to impart elasticity to stabilize the soil to prevent cracking due to the load, and a method for forming a waste landfill using the composition.

In recent years, pollution caused by waste has increased, and environmental measures have been raised as a big social problem in each country.

Until now, waste disposal methods include incineration and landfill methods.Incineration is an area where air is polluted by dust, and landfilling methods are becoming more and more difficult to select landfills due to selfishness. Spills to rivers, rivers and seas not only contaminate domestic water but also cause soil and marine pollution.

Therefore, in the case of landfills, leachate prevention treatment facilities are essential. Currently, most of the landfill sites have poor environmental purification facilities such as leachate prevention treatment facilities.

On the other hand, since the landfill is mainly formed in the mountainous part, coastal part, swamp, landfill, etc., it is necessary to improve and stabilize the soil to be suitable for the local class in consideration of civil engineering aspects suitable for the characteristics of the soil.

However, in the case of landfill sites, the method of simply laying polyethylene in the clay layer, i.e., sheet lining method, has been used without stabilizing the soil, which takes into account the natural environment of the landfill soft ground and the structure and characteristics of the topographical soil. You can do this without laying a sheet and finishing with a layer of clay on it.

However, the sheet lining method is a leachate as it is a contaminant of groundwater if there is a hole in the plastic sheet or the joint is not sufficiently bonded, and if it is artificially damaged or if the surface is left for a long time, damage due to UV degradation occurs. There is a vulnerability.

The clay layer is laid to compensate for such defects, but the clay layer is not only free from the ability to freeze, but is also defenseless in the inflow of water, rainwater, and the like, and lacks the ability to block or filter wastewater discharged from the sheet.

In addition, there is an earth lining method that constitutes a curtain with a mixture of clay and bentonite. However, since most of the landfill is installed in sea level, swamps, valleys, and mountains, there is a lack of support and loss due to the lack of high-density clay and bentonite. There is a problem such as separation by.

In the sheet lining method and the earth lining method as described above, since the insulation film layer is formed in a state in which the soil is not stabilized in general, the compressive strength is dropped and cracks are generated due to the load. Therefore, leachate sewage leaks, causing contamination.

In order to solve these problems, the economical method that satisfies the mechanical and physical properties required for the roadbed, subgrade and base, or the landfill soil foundation is to adjust the particle size of the soil which constitutes the subgrade or subgrade and subbase. For example, there is a method of improving strength by mixing gravel or crushed stone, and a method of improving strength or permeability by using a chemical reaction by mixing an additive suitable for selected soil.

However, the method of mixing gravel or crushed stone in the soil constituting the roadbed or the roadbed layer and the auxiliary base layer is cumbersome to involve a separate treatment process, and the resources are conserved in view of the fact that the gravel or crushed stone is exhausted. Not preferable in terms of

In addition, there is a cement stabilization method that has been conventionally used, which is a method of forming each layer by mixing masato and cement and quicklime, there is a problem that it is difficult to maintain the initial compressive strength due to the long curing time.

On the other hand, by adding soil stabilizer added with lignin sulfonic acid polymer, urea resin-based synthetic polymer emulsion and asphalt emulsion to masato mixed with cement and quicklime on soil such as clay soil, sandy soil and high-content clay soil, it gives water resistance and high grain strength. And a method consisting of 99% of naphthalene, 0.2% of calcium oxide, 0.3% of aluminum silicate, and 0.5% of water in place of quicklime (hereinafter referred to as "LOMAR D"). And a method for stabilizing soil, which can increase the compressive strength and shorten the curing speed by adding the same (Korean Patent No. 50937).

However, if the soil stabilization treatment by adding asphalt emulsion, quicklime or lomaldi to the soil as described above, but there is some degree of compressive strength improvement or anti-freezing effect, the mechanical and physical properties required in the civil structure, ie compressive strength and permeability There was a problem such as not satisfying, cracking due to the load.

An object of the present invention is to provide a method for the development of a soil landfill treatment composition that can effectively stabilize the soft ground so as to effectively prevent the leakage of leachate in the conventional landfill and use it to provide a method for forming a waste landfill.

The soil stabilizing composition for achieving the above object is 2 to 5 parts by weight of portland cement, 10 to 15 parts by weight of rubberized asphalt waterproofing solution, 1 to 4 parts by weight of fly ash and calcium sulfo alumina in 100 parts by weight of clay or masato. It is characterized by having 1 to 3 parts by weight of nate.

In addition, there is also a method of mixing the composition to construct the waste landfill to stabilize the soil, and then to treat the synthetic rubber coating waterproofing material to form a waste landfill.

The present invention will be described in more detail as follows.

The present invention adds calcium sulfo aluminate to strengthen the compressive strength instead of asphalt emulsion, quicklime or lomaldi used in the conventional soil stabilization treatment method, and adds rubberized asphalt waterproofing solution to impart elasticity to prevent cracking according to load. Prevent it.

The clay or masato used in the present invention has passed a 800 μm standard body and has a water content of 10 to 15%.

2 to 5 parts by weight of portland cement is added to 100 parts by weight of such clay or masato, and 10 to 15 parts by weight of rubberized asphalt waterproofing liquid is used. As the rubberized asphalt waterproofing liquid, ordinary asphalt waterproofing liquid may be used, but more preferably. The following is to use the rubberized asphalt waterproofing solution previously filed and registered by the present applicant (Korean Patent No. 36358). The rubberized asphalt waterproofing liquid was mixed with 100 parts by weight of styrene-butadiene rubber latex with a solid content of 70% and 12 parts by weight of an oil / water dispersion polybutene emulsion with a solid content of 65%, and heated to 55 ° C. while stirring 3 parts by weight of potassium rosinate. Then, after alkali treatment with 3 parts by weight of sodium hydroxide, it is prepared by emulsifying and dispersion by adding 175 parts by weight of asphalt melted at 140 ℃.

Such rubberized asphalt waterproofing liquid serves to reinforce elasticity, watertightness and compressive strength when it is treated on the road, and in particular, it is possible to impart elasticity to prevent cracking caused by load. On the other hand, the content of rubberized asphalt waterproofing liquid is 10 to 15 parts by weight with respect to 100 parts by weight of clay or masato, if the content is less than 10 parts by weight water tightness and elasticity is low, and if the content exceeds 15 parts by weight Masato and cement particles There is a problem that agglomeration phenomenon occurs.

In addition, 1 to 4 parts by weight of the fly ash is added to the fly ash, which serves as a reinforcing agent to reinforce the high strength stability and durability, if the content is outside the above range there is a problem that the stability is lowered and the compressive strength is lowered have.

In addition, in order to improve the physical and chemical properties of clay, calcium sulfo aluminate is mixed in an amount of 1 to 3 parts by weight based on 100 parts by weight of clay or masato, and calcium sulfo aluminate is used in lime, gypsum and alumina. As a compound calcined from minerals as a raw material, it is a substance containing 3CaO · Al ₂ O ₃ · CaSO ₄ , CaO, and CaSO ₄ as main minerals. The calcium sulfo aluminate reacts with glass lime and gypsum in ordinary portland cement and clay to form ettringite, a sulphate double hydrate, 3CaO, Al ₂ O ₃ and 3CaSO ₄ , which are acicular crystals of calcium sulfo aluminate. 32H ₂ O) expands to have no shrinkage, and combines with the aluminate phase to exhibit super-fast hardness and high strength. If the amount of calcium sulfo aluminate used to play such a role is out of the above range, the pot life is short and there is a problem of poor workability.

The method of constructing the landfill to prevent leakage of the leachate of the waste landfill using the prepared composition for soil stabilization treatment, constructs the composition for the soil stabilization treatment on the ground to stabilize the soil and then synthesize What is necessary is just to process a rubber type coating waterproofing material.

Here, the method of installing the synthetic rubber coating waterproofing material follows a conventional method.

At this time, the synthetic rubber coating waterproofing material can be selected from high density polyethylene, polyurethane waterproofing material and chloroprene rubber waterproofing material. When using high density polyethylene waterproofing material, it can be installed. Can be used.

In addition, the composition for soil stabilization of the present invention has excellent compressive strength, water permeability, and has elasticity to stabilize roadbeds, subgrades and bases of roads, or pavement or underground for walking in waterworks facilities, golf courses, and general parks. It can be effectively applied to ground stabilizer and so on during earthquake process.

Hereinafter, the present invention will be described in detail with reference to the following Examples, the present invention is not limited by the Examples.

Example 1

2 parts by weight of Portland cement, 3 parts by weight of fly ash, 10 parts by weight of rubberized asphalt waterproofing liquid (Ryutex, Central Waterproofing Company), and 100 parts by weight of 10-15% clay or Masato, which passed through 800 µm sieve, and 1 part by weight of calcium sulfo aluminate (manufactured by Dalsung Co., Ltd.) was mixed and manufactured in a waste landfill based on this.

Then, the high density polyethylene was installed to a thickness of 1mm or more to form a waste landfill.

Example 2

100 parts by weight of Masato having a water content of 10 to 15% through a 800 μm sieve, 2 parts by weight of Portland cement, 3 parts by weight of fly ash, 10 parts by weight of rubberized asphalt waterproofing liquid (Ryutex, Central Waterproofing Company) and calcium sulfo 2 parts by weight of aluminate (manufactured by Dalsung Co., Ltd.) was mixed and manufactured in a waste landfill based on this.

Then, the polyurethane resin was sprayed with a mechanical spray and coated to form a waste landfill.

Example 3

100 parts by weight of Masato having a water content of 10-15% passed through a 800 μm sieve, 2 parts by weight of Portland cement, 3 parts by weight of fly ash, 15 parts by weight of rubberized asphalt waterproofing liquid (Ryutex, Central Waterproofing Company) and calcium sulfo 3 parts by weight of aluminate (made by Dalsung Co., Ltd.) was mixed and manufactured in a waste landfill based on this.

Then, the high density polyethylene was laid to a thickness of 1 mm or more to form a waste landfill.

Comparative Example 1

No. 1,500 g of Masato passed through 200 sieves was mixed with 7% cement by weight of Masato, 3% emulsion by weight of Masato, and 10% by weight of Raldimi, which were used in the landfill.

Then, high density polyethylene was installed to a thickness of 1 mm or more to form a waste landfill.

Experimental Example 1

The compressive strength, elastic modulus, water permeability ratio, absorption ratio and acid resistance of the soil stabilized treated layers constructed according to the above Examples and Comparative Examples were measured and the results are shown in Table 1 below.

Here, the compressive strength, water permeability ratio and absorption ratio were measured according to the KS F 2451 method (building cement waterproofing test method), the elastic modulus was measured according to the ASTM D 1456 ~ 61 method. And acid resistance was measured according to the KSM 5307 method (tar epoxy resin coating material).

Item Example Comparative Example 1 One 2 3 Compressive strength (kg / ㎠) 3 days 35.13 39.48 43.58 29.21 7 days 57.52 61.21 65.72 37.14 12 days 78.21 81.03 82.27 57.30 Modulus of elasticity (MPa) 1,700 2,100 2,700 1,350 Pitching cost 0.18 0.16 0.13 0.48 Absorption ratio 1 hours 0.17 0.14 0.12 0.35 5 hours 0.19 0.17 0.15 0.40 24 hours 0.22 0.20 0.19 0.52 Acid resistance No problem No problem No problem No problem

It can be seen from the results of Table 1 that the soil stabilization layer subjected to the soil stabilization treatment using the composition according to the present invention has excellent overall physical properties including compressive strength. When applied, the coating waterproofing material itself has a high strength, a water permeability ratio is 0, and the chemical resistance is strong, and when applied onto the soil stabilization layer of excellent physical properties as described above, physical and chemical factors affecting the soil stabilization layer from the outside. It can be seen that the service life is extended since it is minimized.

As described above, the present invention is to construct a composition consisting of rubberized asphalt waterproofing liquid and calcium sulfo aluminate in Masato, Portland cement for soil stabilization treatment, and by installing a synthetic rubber coating waterproofing material therein, compressive strength and permeability This improved elasticity prevents the outflow of sewage by preventing cracks and deformations caused by loads or industrial waste storage in landfills, and prevents the depletion of resources by not using gravel or crushed stone. It can be effective.

Claims (5)

A composition for soil stabilization consisting of 2 to 5 parts by weight of portland cement, 10 to 15 parts by weight of rubberized asphalt waterproofing liquid, 1 to 4 parts by weight of fly ash, and 1 to 3 parts by weight of calcium sulfo aluminate, in 100 parts by weight of clay or masato. The composition of claim 1, wherein the masato has a particle size of 800 µm and a moisture content of 10 to 15%. [Claim 2] The composition of claim 1, wherein the calcium sulfo aluminate is a material containing 3CaO.Al ₂ O ₃ .CaSO ₄ , CaO, and CaSO ₄ as main minerals. The method of claim 1, wherein the composition of claim 1 is installed in a landfill to stabilize the soil, and the synthetic rubber coating waterproofing material is treated therein. The method of claim 1, wherein the synthetic rubber coating waterproofing material is made of high density polyethylene, polyurethane waterproofing material and chloroprene rubber waterproofing material.