KR100378528B1 - Cover Soil Composition for the Modification of Land Fill Soil Capable of Lowering Ordor and Preventing Vermination - Google Patents

Abstract

The present invention relates to a landfill material composition for landfill for soil improvement, having odor reduction and pest prevention performance, and more specifically, 40 to 60% by weight of general soil sand, 20 to 40% by weight of by-product lime, and 5 to 15 molding sands. The present invention relates to a landfill material composition for landfill having a soil improving ability and an intellect strengthening effect, including weight%, 6-15 wt% zeolite and 1-10 wt% waste stone powder. The composition according to the present invention 1) odor reduction, 2) pH control, 3) leachate treatment problems, 4) pest control, 5) cost reduction by resource recovery and recycling, 6) environmental destruction and waste reduction, 7 8) saving budget for covering soil materials, and 8) improving the quality of soil and improving the intellect.

Description

Cover Soil Composition for the Modification of Land Fill Soil Capable of Lowering Ordor and Preventing Vermination}

The present invention relates to a landfill material composition for landfill having soil improvement ability, and more specifically, it can supply high quality soil rich in nutrition by proper mixing with general soil, preventing the occurrence of pests, odor smell, etc., The present invention relates to a landfill material composition for landfill for soil improvement, which is easy to treat leachate with maintaining pH suitable for soil, and has odor reduction and pest prevention performance.

Various domestic wastes generated in Korea are about 40,000 tons per day, and about 60% of them are disposed of depending on landfill. In general, the landfill is used to form an impermeable layer using a clay or synthetic resin film to excavate the landfill and to prevent leachate collection and underground penetration. The waste is piled up to about 4.5m high, compressed, and covered in about 50cm. Repeat this landfilling operation to reach a certain height and finally form a final cover layer of about 150cm and finish the landfilling process. At this time, the leachate generated is collected and treated, and after treatment of the generated gas, it is left for the stabilization period. Therefore, landfills in each region, including the metropolitan landfills, are currently having a great difficulty in securing cover materials (daily cover material, intermediate cover material, and fill material).

Solid wastes (such as proteins, carbohydrates, hydrocarbons, lipids, degradable polymer compounds, metals, and synthetic resins, which are composed of non-degradable organic and inorganic compounds) are subject to changes in dissolution and mass loss over time. Cover soils and soil microorganisms play an important role. As the landfill period has elapsed, the material changes in the landfill layer are as follows. During the initial short period, low molecular weight and metabolism of polymer materials by aerobic microorganisms are carried out using air supplied from soil and oxygen mixed in landfill. Leachate is then produced and a small amount of CO ₂ is produced, dissolved in water or discharged through the final cover layer. At the same time, oxygen is completely extinguished, and anaerobic microorganisms (fermented microorganisms, anaerobic microorganisms) are multiplying, and these microorganisms work in combination to decompose, degrade, and absorb degradable organic matter, thereby promoting active metabolism. As a metabolite, CO ₂ , small amounts of CH ₄ , various organic acids, alcohols, and low-molecular organics are produced, resulting in a large amount of leachate, a sharp decrease in pH, CO ₂ , CH ₄ , NH ₃ , H ₂ S and evaporative organics. (Low molecular alcohols, organic acids) rise and are released into the atmosphere or adsorbed to the final cover layer. At this time, a considerable amount of mass loss occurs, and the pH is lowered, and microbial activity is slowed down for a long time, and partial dissolution of non-degradable organic matter and inorganic matter occurs due to the action of organic acids and carbonic acid. Therefore, harmful metals such as CN, Cd, Cu, Hg, Fe, Zn, As, and low molecular weight harmful organic substances are contained in the leachate in large quantities.

These substances also act as microbial toxic substances, which is one factor that lowers the reaction rate of these acid production step, acetic acid production step. Due to the release of harmful dissolved substances and metabolism of organic acids, environmental conditions are somewhat improved (reduced concentrations of harmful substances, increased PH) and converted to CH ₄ generators. Using anaerobic oxidizing bacteria including methane-producing bacteria using CH ₃ COOH, H _2, etc. generated in acid formation step, CO ₂ , H ₂ S, N ₂ O, NH ₃ , organic acid Produces many gaseous substances, including Mercaptan. The resulting material flows into the cover layer into the rising atmosphere or is adsorbed on the soil to be oxidized, dissolved and released to the leachate.

Most of the mass loss is formed by this process. At the end of this process, all organic matter is converted to inorganic material and released into the atmosphere and leachate, or detained in the soil layer to stabilize. This prestabilization process is quite long and generally terminates over 20-30 years.

H ₂ O and nutrients (CN, P, Ca, Mg and other micronutrients) required for microbial survival and function are eluted through the landfill layer, and N ₂ , NH ₃ , N ₂ O generated in the landfill layer and released into the atmosphere Adsorbs gaseous, evaporative toxic and odorous substances such as H ₂ S, CH ₄ , Skatol, mercaptan, organic acid, alcohol and hydrocarbons to prevent instantaneous mass release to the atmosphere. It is a place where a reaction occurs by oxidizing a substance (using it as an energy source) and turning it into a dissolved harmless substance. Therefore, high-quality soils with high nutrients and microorganisms and excellent robustness and permeability should be used as cover material.

Nevertheless, conventional cover materials or daily cover materials or intermediate cover materials which have been used so far have been used as general cover soils as layered cover or fill material. In addition, Korean Patent Application No. 96-66123 discloses sewage sludge, constant sludge, paper sludge, plated sludge, steel sludge, steel sludge, mine sludge, dredged sludge, etc. generated by natural phenomena, human activities and industrial activities. It suggests a method of constructing a landfill site by recycling solid sludge and all sludges present in the solid phase and using it as floor order material, slope order material, daily cover material, intermediate cover material, final cover material, and vegetation layer. The type of sludge that can be applied to the method is pure sludge itself or mixed sludge in which a mixture of natural materials, waste materials, solidified materials, and chemicals is added to the sludge itself. Natural materials such as sand, clay, asphalt, cement, hydrated lime, quicklime, bentonite and zeolites, waste lime, waste foundry sand, dead sand, tailings, slag, dust, low ash or fly ash from thermal power plants and incinerators One or more of the agents is selected.

However, when these cover materials are used as cover materials for general industrial waste or household waste (sludges for food, electronics, furniture, etc.), natural materials such as cement, slaked lime, and quicklime are economically disadvantageous due to their purchase. There is a problem of heavy metal contamination, and various harmful gases generated when they decay, not only air pollution due to the bad smell of odor, but also cause civil complaints of neighboring houses, damage of pests (flies, mosquitoes, millipedes, etc.) and treatment of malignant leachate In addition, as a result of securing the soil and cover soil, it will lead to the environmental damage such as forests and damages caused by the opening of artificial grounds.

Therefore, in the present invention, as a result of repeated experiments and studies for the purpose of developing a method that can alleviate the above-mentioned problems, by-product lime discharged from foundry sand and soda ash fertilizer plant, etc. generated in a steel mill or a foundry plant, and certain physical and chemical The present invention has been completed with the idea that further mixing the components can produce a more effective and efficient cover material composition.

Therefore, the object of the present invention is to anticipate the environmental damage such as deforestation and land transformation of a considerable part, and to recycle waste discharged as a by-product of the production plant, which is very expected in terms of resource recovery and recycling. It is possible to supply high quality soil rich in soil improvement and nutrition through proper mixing, and it is easy to treat leachate by reducing the strength of soil, strengthening the ground, preventing the occurrence of pests, weakening of bad smell, etc. And it is to provide a cover material composition for soil improvement, having a pest prevention and prevention performance.

The composition of the present invention for achieving the above object comprises 40 to 60% by weight of general soil sand, 20 to 40% by weight of by-product lime, 5 to 15% by weight of waste foundry sand, 6 to 15% by weight zeolite and 1 to 10% by weight of waste stone powder do.

In addition, the composition of the present invention may optionally further comprise a sodium meta silicate or olso silicate component in addition to the component.

1 is a view showing a schematic process for covering a landfill using a cover material composition according to the present invention.

Looking at the present invention in more detail as follows.

As mentioned above, the composition of the present invention includes general soil, by-product lime, foundry sand, zeolite and waste-rock powder.

The by-product lime is produced as a by-product from a large plant using limestone, such as a fertilizer and a soda ash plant, but is treated as waste. In general, by-product lime is a sedimentary sludge state of about 70 to 80% of the initial moisture content, and is caked to within 50% of moisture through compression filtration. In the present invention, the by-product lime is used at 20 to 40% by weight, and when the amount is less than 20% by weight, the pH drops to 6.0 or less, and when the amount is more than 40% by weight, the pH is 8.0 or more and it is insufficient to improve the neutralization of the soil.

On the other hand, most of coastal coastal reclamation is carried out using dredged soil, soil, or rubble, but there are many difficulties due to the enormous cost of dredging, site purchase price, construction cost, and destruction of nature. In addition, lime is used in the United States, Japan, and Europe to prevent salt damage and strengthen the soil in landfills. By-product lime is a remnant of natural limestone used in the inorganic industry and is highly likely to be recycled to coastal or sanitary landfills and other options. Therefore, in the present invention, value creation and environmental protection at the national level are valuable, and by recycling resources without damaging the natural environment, the process cost of by-product lime is reduced, and the firm's competitiveness is secured and used as a substitute for intermediate soil material at landfill. By using it, the landfill cost can be reduced and the land can be efficiently used to preserve the pleasant environment.

In the case of by-product lime, more than 3 million tons of inventory are accumulated in Incheon Dongyang Chemical, and more than 10 million tons are accumulated in Namhae Chemical of Yeocheon Industrial Complex. The specific gravity of by-product lime is 1.1 and the permeability coefficient is 10 ^-7 cm / sec. The component analysis is shown in Table 1 below, and the heavy metal content requested by KIST for analysis was found to be within the limits.

The waste foundry sand used in the present invention is usually discharged in large quantities from a steel mill, in particular an automobile plant, and only a part of the waste foundry comes from a foundry complex. The waste foundry sand is used in 5 to 15% by weight and usually acts as a sato, if less than 5% by weight weakens the reinforcement of the intellect, and exceeds 15% by weight will affect the water permeability coefficient. Foundry sands contain about 90% silica, about 3% alumina, about 2% iron oxide, about 1% potassium oxide, and about 1% magnesia, and the formulation of clay caking yarn when used as a cast iron mold The material is composed of about 93% silica sand, 5% bentonite, 2% coal powder and 5% water content.

In the present invention, 6 to 15% by weight of zeolite is used to improve soil quality and increase nutrients. If the amount is less than 6% by weight, the additive effect is weak, and if it exceeds 15% by weight, there is an economic disadvantage. The zeolite is a natural powder of about 10 to 80 mesh is preferable in view of the removal and adsorption capacity of the heavy metals and the like and economical. Zeolite contains 60 to 70% of silica, 11 to 16% of alumina, 1 to 3% of iron oxide, 1 to 3 of potassium oxide, 1 to 2% of magnesia and 8 to 11% of fuel loss. In addition, it is used as a moisturizer and pollution prevention using soil improvement ability and strong adsorptivity, and when zeolite is used in plant soil, the following effects can be obtained.

1) It has good antibacterial activity against bacteria and fungi of pathogenic bacteria in soil.

2) By activating the moisture of the soil, the germination and rooting of plants are promoted, and the growth is quick.

3) It has excellent water resistance, chemical resistance, durability and hardness, and the effect lasts for a long time.

4) May oxidize, decompose and harm harmful residual pesticides.

In addition, according to the present invention, the waste-rock powder is used in the amount of 1 to 10% by weight for the nutrition of minerals, if less than 1% by weight it is difficult to expect the supply of insufficient inorganic substances, when it exceeds 10% by weight of other substances and ingredients Results in imbalance.

In the present invention, 40 to 60% by weight of general soil is used, and when the general soil is less than 40% by weight, the intellect recovery of the soil is delayed, and when it exceeds 60% by weight, the pH control and the adsorption function of the heavy metals are reduced. General soil collected in Korea is usually acidic, it is very suitable for controlling the pH of the final cover material by neutralization by mixing the above-described components in the general soil.

In addition, in the present invention, sodium metasilicate or olso silicate (anhydrous salt) may be further included in the cover material composition in an amount of 1 to 5% by weight to obtain affinity, cleaning, and blending effects. At this time, sodium metasilicate or olso silicate is preferably added in the form of an aqueous solution of 5 to 10% by weight, preferably mixed with foundry sand or by-product lime.

It is difficult to elaborate at this stage on the mechanism by which the above components can achieve the effects obtained by the present invention, but as the individual components claim in the present invention, by-product lime, waste foundry sand, waste-rock powder and zeolite, In addition, sodium metasilicate or olso silicate and some water are considered to cause a proper effect by chemical and physical relationship and bonding depending on the mixing ratio when mixed in the mixer.

Hereinafter, the present invention will be described in more detail with reference to the following examples, but the scope of the present invention is not limited to the following examples.

Examples 1-4 and Comparative Example 1

General earth sand (pH 5.0 to 6.0), natural zeolite powder (10 to 80 mesh), by-product lime (water content of 20 to 30%), waste foundry sand and waste stone powder were prepared in the amounts shown in Table 3 below, and they were evenly mixed in a spiral mixer. After that, it was dried again within 20% of water content in a mobile dryer. On the other hand, in the case of Example 4, 10kg of an aqueous solution containing 0.5kg of sodium metasilicate was evenly blended and then naturally dried. Using the cover material composition of the present invention thus dried was carried out in the laboratory as follows.

In order to excavate the landfill and to prevent leaching of leachate and underground penetration, 2 cm of impermeable layer was formed by using a synthetic resin film, and then the composition 1 cm and waste were piled up to about 4.5 m and compressed, and then the composition 0.5 cm, waste Medium cover is applied to 4.5 cm, 0.5 cm of the composition, 4.5 cm of the rubbish, and 0.5 cm of the composition. Repeat this landfilling operation to reach a certain height and finally form a final cover layer of about 1.5cm and finish the landfilling process. At this time, the leachate generated was collected and treated, and after treatment of the generated gas, it was left for the stabilization period.

Using the composition, the pH of the leachate, the amount of leachate, the contamination of the leachate, the immersion phenomenon, pest phenomena, odor and the like, the results of the leachate pH in Table 4, the leachate amount in Table 5, In Table 6 below, the leachate contamination is shown in Table 7 below, pest phenomena, degree of rot and odor are listed in Table 8 below.

1) Visually observe the incidence of pests

2) Visually inspect the state of corruption

3) Measured by sensory method of environmental pollution pollution test method

As described above, the composition according to the present invention is 1) odor removal, 2) pH control, 3) leachate treatment problems, 4) prevention of pests, 5) cost reduction by resource recovery and recycling, 6) environmental destruction and waste It has various effects such as reduction of weight, 7) saving of budget for purchasing cover materials, and 8) improvement of quality of soil and improvement of intellect.

Claims (3)

40 to 60% by weight of general soil sand, 20 to 40% by weight of by-product lime, 5 to 15% by weight of foundry sand, 6 to 15% by weight of zeolite, 1 to 10% by weight of waste stone and 1 to 5% by weight of sodium meta (or olso) silicate Having odor reduction and pest generation prevention performance, characterized in that it comprises a cover material composition for landfill for land improvement. delete According to claim 1, wherein the zeolite is a natural powder having a particle size of 10 to 80 mesh odor reduction and pest generation prevention performance, cover material composition for landfill for land improvement.