KR100482420B1 - method of reclamation construction for wrapping and sealing waste using textile hardening panel by ceramic solidification agent - Google Patents

Abstract

The present invention relates to a waste packaging landfill method using a fiber solidified plate, and when the waste landfill is formed, the fiber solidified plate is solidified by impregnating a ceramic solidified admixture with a non-woven fabric, which is a civil fiber, at the bottom and the slope of the landfill to complete the landfill. After that, the upper surface is covered with a fiber solidified plate, characterized in that to completely package the waste embedded in the fiber solidified plate.

Waste landfilled according to the present invention as described above does not leak to the outside due to the low fiber permeability coefficient even if the leachate generated in itself does not flow to the interior of the landfill is completed landfill is stable to maintain a stable landfill state When the waste is decayed in the landfill, and the space in the landfill layer is generated, the landfill layer has a high tensile strength, thereby suppressing the landfill decay due to the load of the upper vegetation layer.

Description

Method of reclamation construction for wrapping and sealing waste using textile hardening panel by ceramic solidification agent}

The present invention relates to a waste packaging reclamation method using a fiber solid plate, more specifically, contaminated soil powder for recycling of tailings mines, unsanitary landfills, contaminated soils contaminated with oil and harmful substances, low-level radioactive waste, etc. When processing a large amount of waste temporarily, from the establishment of the landfill site, the fiber solidified board is impregnated with the solidified admixture on the nonwoven fabric, which is a geotextile, on the floor and slope of the landfill site, and the waste is temporarily packed. The present invention relates to a landfill method of covering a solid plate and sealing wastes with a fiber solid plate.

In general, the landfill construction requires 50cm of impermeable layers such as mud, solidified soil, and mixed soil on the ground to stop the leachate from entering the ground after stopping the ground. In order to protect the plastic sheet from landfilled waste, gravel has been installed more than 30cm. This is an appropriate measure to be taken because municipal or industrial wastes are buried for more than one year and up to ten years, depending on the landfill size.

However, creating a landfill site by a long-term landfill method is a place where landfills that are already generated in large quantities such as contaminated soil contaminated by tailings and oil from waste mines, low-level radiation-contaminated waste, etc. are required to be disposed of in a short period of time. It is uneconomical and takes a long time.

Currently, most of the landfill sites that require short-term landfills, such as contaminated soil contaminated with tailings and oil from waste mines, adopt a simple landfill method in which only the plastic sheets are laid after landfilling. Is good, but there is a problem in that it is not easy to maintain a stable landfill state of waste due to a defect that is easily torn during impact or fault ground.

Therefore, the construction is simple and the tensile and compressive strength is large, so that the waste can be kept in a stable land state for a long time, and the leachate generated in the landfill waste has a low permeability such that the leachate does not discharge to the outside. The study was made to study the method of landfill waste using fiber solidified plates that cannot penetrate into the furnace.

Landfilling of wastes helps the chemicals interact with each other, resulting in leachate mixed with various heavy metals and chemicals contained in the wastes. If the leachate penetrates underground, it is a major cause of groundwater and surrounding soil contamination.

In addition, when the amount of landfill is increased when landfilling waste, the order sheet, which is a facility at the bottom of the landfill, is severely subjected to the load according to the weight of the waste from the top, so that accidents that are broken or torn sometimes occur.

On the other hand, when the landfill is completed, the rainwater is penetrated into the landfilled waste layer, and the amount of leachate is increased.Then, cover the top with a plastic sheet and cover 50cm ~ 1m thick soil on the top, and then plant trees or grass. When the carbohydrates in the waste are anaerobic decomposed and gasified, the volume of the landfill waste is reduced and the pupils are formed, so that the upper lid layer vinyl sheet is recessed or torn, making it difficult to maintain a stable landfill state.

The present invention relates to a waste packaging reclamation method using a fiber solidified plate, and to install a fiber solid plate of 0.5cm ~ 3cm thickness on the bottom and slope of the landfill, to form a rim-type landfill and a top lid after landfilling the waste It is made of fiber solid plate, so the waste is packaged in a strong structure of fiber solid plate, and the high tensile strength and compressive strength of the fiber solid plate prevents the tearing of the layer due to settlement and depression of the ground, and the low permeability coefficient of the fiber solid plate. Waste packing reclamation method using a fiber solid plate that prevents leachate generated inside the landfill to escape to the outside and contaminate surrounding groundwater or soil and prevent external rainwater from penetrating into the landfill layer after landfill is completed. To provide.

In addition, when the landfill area is large, it is possible to provide a more stable landfill structure by forming a lot of packaging cells by reducing the number of packaging units.

Waste packaging landfill method using the fiber solidification plate according to the present invention is to install a fiber solidification plate of a predetermined thickness on the bottom and slopes of the landfill during the construction of the landfill site and cover the fiber solidification plate on the top after completion of the landfill It is characterized in that the packaging.

The fiber-solidified plate is manufactured by impregnating a solidified admixture into a nonwoven fabric of geotextiles, or by installing a nonwoven fabric of geotextiles on a slope and a bottom of a landfill site, and then spraying the mixed admixture into the nonwoven fabric. Says plate.

The thickness of the fiber solid plate can be adjusted from 0.5cm to 3cm in thickness according to the nature of the landfill composition, and the width can be adjusted from 1m to 3m in length according to the landfill area and the depth of landfill. It is advantageous to adjust to the conditions.

The nonwoven fabric, which is a raw material of the fiber solid sheet used in the present invention, has a thick, soft, elastic nonwoven fabric, which is advantageous in forming a strong fiber solid sheet due to the increased penetration and the amount of penetration of the solidified mixed solution.

The solidified mixed solution used in the present invention is a mixture of water and ceramic solidified material. The ceramic solidified material is an inorganic composite solidified material, and the chemical composition thereof is shown in <Table 1>.

<Table 1> Chemical Composition of Ceramic Fire Extinguishers

<Table 2> shows the physical properties when only the solidified mixed solution itself in which ceramic solidified material having a chemical composition as shown in <Table 1> is mixed with water (hereinafter referred to as "ceramic solidified product").

<Table 2> Properties of Ceramic Solidified Products

As shown in Table 2, the ceramic solidified product has 200 kgf / cm 2 (28-day strength) with respect to tensile strength, is non-flammable with respect to fire resistance, and has heat resistance withstanding at 100 ° C. for 2 hours. Chemical resistance is also achieved in solutions with acid concentrations of 10% in sulfuric acid, hydrochloric acid, nitric acid and sodium hydroxide and in solutions with 95% acid concentration in methyl alcohol.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, these drawings are for illustrative purposes only and the present invention is not limited thereto. In particular, the ceramic solid materials used in these drawings have the chemical composition and physical properties of Table 1 or Table 2, but these are merely for illustrative purposes, and the composition of the present invention may be used even when ceramic ceramic materials having other chemical components and physical properties are used. There is no difficulty, and the use of ceramic solid materials having the chemical constituents and physical properties of Table 1 or Table 2 is also within the scope of the present invention.

1

1 is a perspective view showing the overall configuration of a waste packaging embedding method using a fiber solidified plate according to the present invention.

Referring to Figure 1, the waste packaging landfill method (20) using the fiber solidified plate (10) after the compaction of the base plate 30 in the general civil engineering method when constructing the landfill site and the fiber solid plate (10a) on the bottom and slope of the landfill site After the landfill is disposed of the waste and the landfill is finished, the capping plate 10b is placed on the top, and then the vegetation layer 40 is formed on the capping plate 10b in the same manner as the upper part of the landfill.

[Figure 2]

Figure 2 is a perspective view of an embodiment of a first method of a waste packaging embedding method using a fiber solidified plate according to the present invention.

Referring to Figure 2, when the estimated amount of waste to be buried or when the depth of the landfill is not deep, or when the landfill is required step by step to form a lattice fiber solid plate 11, the waste space consisting of the lattice fiber solid plate 11 ( After the waste is buried in order in 50), the fiber solid plate lid 10b is packed out in the order of the lattice space 50 in which the filling is completed.

3

3 is a perspective view showing a manufacturing method of the fiber solidified plate 10 according to the present invention.

Figure 3 (a), (b) is a cross-sectional view showing a procedure for manufacturing the fiber solid plate 10 to be used in the present invention.

First, the solidified mixed solution (1) is prepared, and then the nonwoven fabric 60 is placed in the container containing the solidified mixed solution 70, so that the non-woven fabric 60 is impregnated with the solidified mixed solution (1), and then taken out and left in the air. After the method of hardening and laying the nonwoven fabric 60 on the bottom and the slope of the landfill to prepare a solidified mixed solution (1) and then sprayed with a high-pressure injector (80) on the nonwoven fabric (60) to manufacture a fiber solidified plate (10). At this time, in order to improve the adhesion between the fiber-fixed plate 10 and the base plate 30 may be compacted with a roller.

[Figure 4]

Figure 4 is a cross-sectional view showing a method of laying the fiber solid plate 10 according to the present invention.

First, the fibrous solid plate 10 is 0.5cm to 3cm wide and the length is adjusted to the length of the landfill slope or the bottom, and then the fibrous solid plate 10 is firstly placed on the fibrous solid plate 10 2-3 cm. Lay out or lay the fiber-fixed plate 10 laid first or the fiber-fixed plate to be laid secondly side by side, and then attached with a fiber-fixed tape 12 made of a nonwoven fabric 60 impregnated in the mixed solution 1. You may.

As described above, the waste packaging embedding method using the fiber solidification plate according to the present invention completely fills the waste to be embedded with a fiber solid plate having a high tensile strength and compressive strength and a low permeability coefficient, and thus leachate generated from the landfill waste. It does not leak to the outside and rainwater does not flow into the landfill, so no additional leachate is generated, and the landfill protection film is damaged even when the ground flow and depression in the landfill due to the decomposition of the waste occur, preventing the landfill from being stabilized. It works.

1 is a cross-sectional view showing the overall configuration of a waste packaging embedding method using a fiber solidified plate according to the present invention.

2 is a perspective view of an embodiment of a first method of a waste packaging filling method according to the present invention;

Figure 3 is a perspective view of a fiber solidified plate manufacturing method according to the present invention.

Figure 4 is a cross-sectional view of the method of laying the fiber solid plate according to the present invention.

*** Explanation of main parts of drawing ***

1. Solidified mixed solution 10. Fiber solid plate

12. Fiber solidified tape 20. Waste packaging landfill

30. Ground 40. Vegetation layer

50. Grid space 60. Nonwoven fabric

70. Impregnation cylinder 80. High pressure jet

Claims (4)

In waste landfill construction, After the landfill is formed with a fiber solidified plate and the landfill is completed, the landfill method is characterized in that the top cover is also covered with a fiber solidified plate and the waste is packed with a fiber solidified plate and reclaimed. In the waste landfill method, A landfill method comprising forming a lattice-type landfill with a fiber-solid plate and covering the top with a fiber-solid plate from the completed lattice to wrap the waste with a fiber-solid plate In the manufacturing method of the fiber solid plate to be used in the method of carrying out the method of claim 1, Method of manufacturing a fiber solid plate by placing a nonwoven fabric on the bottom and a slope of a landfill and high pressure spraying the solidified mixed solution and dipping the nonwoven fabric into a solid mixed solution impregnation tube. A method of laying a fiber solid plate, a method of connecting a fiber solid plate and a fiber solid plate, and a method of laying a fiber solid plate and a fiber solid plate together, and then attaching the fiber solid plate using a fiber solid tape.