JP3821554B2 - Fiber drainage material - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention promptly drains liquids such as rainwater, leachate, and water leaks from pits in waste final disposal sites such as general waste treatment plants and industrial waste treatment plants, and leads them to water treatment devices, or The present invention relates to a fiber drainage material incorporated in a system for detecting water leakage / drainage / leakage on the slope and bottom of a pit at a final disposal site for water conveyance to a leak detection system.
[0002]
[Prior art]
In recent years, environmental pollution due to liquids such as rainwater, water leakage, leachate, and spring water at waste final disposal sites such as general waste disposal sites and industrial waste disposal sites has become a social problem. In view of this, we will endeavor to develop new technologies on how to prevent various environmental pollution to the surroundings by properly treating the various liquids generated from the final disposal site without leaking to the outside. Has come to be paid.
[0003]
By the way, rainwater that falls on the pit of the final disposal site penetrates into the waste and passes through to reach the water-impervious sheet laid on the slope / bottom of the pit as leachate, blocking the penetration to the ground. However, the system flows down along the slope of the slope / bottom surface, is led to the treatment device through the water collecting device, and is discharged after being treated.
[0004]
Therefore, the above leachate must be quickly drained from the pit of the waste final disposal site and guided to the water treatment device without penetrating into the ground by the water shielding structure.
[0005]
As described above, the leachate in the waste final disposal site pit flows down the surface of the water shielding sheet laid on the slope / bottom surface along the gradient, and is guided to the water treatment device through the water collecting device. Designed to. Alternatively, a protective layer such as a slightly thick non-woven fabric or sand may be provided on the water shielding sheet. In this water shielding system, the surface of the water shielding sheet flows down along the gradient in the same manner as described above. It is designed to be guided to a water treatment device via
[0006]
[Problems to be solved by the invention]
However, in the waste final disposal site configured as described above, the speed at which leachate flows down is that it flows through the waste deposited at point pressure or the waste on the left and the protective layer such as nonwoven fabric and sand. Therefore, the in-plane water permeability of these substances is low, and the flowing water speed is extremely slow. This does not meet the objective that leachate must be quickly drained from the pit of the final waste disposal site, led to a water treatment device, treated to a safe water quality level and discharged.
[0007]
And the leachate will stay in the pit of the final disposal site for a long time, and when the quality of the leachate is further deteriorated or the water impervious sheet of the impermeable system is damaged, it stays there. There was a risk that a large amount of leachate would permeate the ground.
[0008]
In view of this, the present invention exhibits a reliable in-plane water permeability / drainage performance for quickly draining leachate in a pit of a waste final disposal site even at a high load load. Provided in the water leakage detection system in the double water-impervious sheet installed on the bottom surface, providing a fiber drainage material that also functions as a protective material, as a water guiding material and drainage material for quick and reliable water leakage detection Is.
[0009]
[Means for Solving the Problems]
The problem-solving means in the present invention is a fiber drainage material provided on the drainage surface side of a water shielding sheet laid in a waste disposal site, and is at least one of monofilament or monomultifilament and has a single yarn diameter. A fiber material of 0.14 mm or more is contained in the constituent fiber material at 30% by weight or more, and the fiber filling amount per unit volume is 40% or less when no load is applied, 43% or less when 1 kg / cm ^{2 is} loaded, or 2 kg / cm ^{2 is} loaded at 50% or less, is set to 3kg / cm ² 75% during loading or less, the inner surface permeability at each loading under conditions of hydraulic gradient 0.03 is set to more than 0.1 cm / sec, the thickness It is comprised with the knitting which is 2-20 mm .
[0010]
According to the present invention, it is preferable that the strength of the constituent fiber material is set to 100 kg / m or more in the vertical direction and 50 kg / m or more in the horizontal direction.
[0011]
According to the above configuration, the leachate generated in the industrial waste treatment plant can be quickly discharged. By laying it between the two upper and lower water shielding sheets and incorporating it into the water leakage detection system, With excellent drainage and water permeability, it is possible to detect water leakage more quickly and reliably, and since it has compression resistance and cushioning properties, it can be used as a protective material to prevent damage to the water shielding sheet due to impact. Also become.
[0012]
In addition, it is manufactured by knitting , so it builds a high-quality water-blocking system structure that possesses appropriate strength and is therefore excellent in safe workability and drainage / water transfer functions.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
The fiber drainage material A according to the embodiment of the present invention is a bottom impermeable sheet in a waste final disposal site 1 such as a managed waste final disposal site or a water-impervious structural waste disposal site equipped with a water leakage detection system. It is used so as to be laid between 2 and the upper water-impervious sheet 3 and is formed into a sheet shape.
[0014]
In the fiber drainage material A according to the embodiment of the present invention, the constituent fiber material has at least one of monofilament or monomultifilament, the single yarn diameter is 0.14 mm or more, and the monofilament or monomultifilament is 30% by weight or more is contained, and the fiber filling amount per unit volume at the time of no loading is set to 40% or less.
[0015]
In addition, the fiber filling amount of this invention is a value which shows the ratio of the fiber volume which occupies in the volume per unit volume of the fiber drainage material A. FIG.
The monofilament and monomultifilament have a single yarn diameter of 0.14 mm or more. If this is smaller than 0.14 mm, the sheet-like fiber drainage material A has insufficient compression resistance, or a gap required for high loading. This is because it may be difficult to ensure the drainage performance.
[0016]
The mono multifilament is a yarn composed of a plurality of filaments having a single yarn diameter of 0.14 mm or more, and the fiber drainage material A of the present invention is a knitted fabric. In some cases, the knitting may become difficult and the knitting may be difficult. In this case, by using a plurality of knitting, there is an advantage that rigidity is reduced and knitting becomes possible.
[0017]
In addition, the monofilament and monomultifilament are required to contain 30% by weight or more of the constituent fiber material. However, when the weight is smaller than 30% by weight, the compression resistance is insufficient or the load is high. This is because it is difficult to secure necessary gaps and the drainage performance may be insufficient.
[0018]
In addition, it is required that the fiber filling amount per unit volume at the time of no loading is 40% or less. However, if it exceeds 40%, the fiber density becomes too high and voids in the sheet are reduced, which is expected. This is because it may be difficult to obtain the drainage / water transfer effect.
[0019]
Furthermore, although it is a requirement that the thickness of the fiber drainage material A is 2 to 20 mm, if the thickness is smaller than 2 mm, the amount of voids necessary for drainage cannot be secured in the fiber drainage material A, and the drainage function is sufficient. This is because there may be cases where it cannot be achieved. Further, if the thickness exceeds 20 mm, there is no particular problem with respect to drainage, but the thickness of the fiber drainage material A becomes too thick, and workability at the time of laying may deteriorate. In particular, when a person rides on the fiber drainage material A when laying on a slope, the foot becomes unstable.
[0020]
Fibers drainage material A of the present invention, the fiber loading is 1kg / cm ² 43% during loading or less, 2kg / cm ² 50% during loading or less, it is required to be 3 kg / cm ² or less to 75% during loading. If it becomes smaller than the fiber filling amount at the time of each loading load, the voids in the fiber drainage material A are reduced, the drainage performance is inferior, and the desired drainage function may not be obtained. In addition, it is necessary that the in-plane permeability coefficient at the time of loading of 1, ² , 3 kg / cm ² under the condition of a dynamic water gradient of 0.03 (3%) is 0.1 cm / sec or more. In the present invention, the in-plane permeability coefficient necessary for quickly draining and guiding leachate generated in a waste treatment plant or leak in a double impermeable sheet is the in-plane permeability coefficient of sand or nonwoven fabric. Judged that the performance of several to several tens of times is necessary. If it is less than 0.1 cm / sec, the drainage performance is inferior, and the desired drainage function may not be obtained. In addition, the in-plane water permeability coefficient at the time of no load should just be 5-110 cm / sec.
[0021]
Moreover, the fiber drainage material A consists of a knitted fabric. The knitted fabric is created by, for example, a warp knitting machine or a circular knitting machine having a double row needle bed, and the shape of the knitted fabric constituting the upper surface and the lower surface may be the same or different, and A myriad of mesh-like openings may be formed on a part of the upper surface or / and the lower surface. Furthermore, even if a combination other than the above-described examples is selected, there is no point at all, and it is appropriately selected depending on the type of drainage material to be obtained, and is not particularly limited.
[0023]
In addition, the fiber used for the knitted fabric that is the fiber drainage material A of the present invention is not particularly limited, and for example, synthetic fibers such as polyamide, polyester, polypropylene, vinylon, and aramid are preferably used, monofilament, monomultifilament, Multifilaments, flat cross sections, irregular cross sections, or original fibers colored during fiber production, and in the case of knitted fabrics, natural fibers, recycled fibers, synthetic fiber spun yarns, mixed yarns of these pre-dyed yarns, etc. The fiber material suitable for the purpose, purpose, required performance, etc. is appropriately selected and used.
[0024]
Further, in the present invention, the strength of the fiber drainage material A is preferably 100 kg / m or more in the vertical direction and 50 kg / m or more in the horizontal direction. This is a strength value necessary to withstand the tensile strength applied when laying the fiber drainage material A. If the value is below each, the sheet may be damaged during construction, or the durability may be problematic. If the quality is inferior or if it is laid on a sheet, it may be damaged by the impact at the time of waste disposal.
[0025]
In the above embodiment, the fiber drainage material A is used in the waste final disposal site 1 so as to be laid between the lower impermeable sheet 2 and the upper impermeable sheet 3, but is not limited thereto. In addition to laying between the lower water-impervious sheet 2 and the upper water-impervious sheet 3, if necessary, laid on the lower surface side of the lower water-impervious sheet 2 and the upper surface side of the upper water-impervious sheet 3. In addition, when one water shielding sheet is provided in the waste final disposal site 1, it may be laid on the upper surface side, the lower surface side, or both surface sides. In any case, it is laid on the drainage surface side of the water shielding sheet of the waste final disposal site 1.
[0026]
【Example】
Next, the present invention will be specifically described with reference to examples. The in-plane hydraulic conductivity and hydraulic gradient in the present application are measured as an overload pressure of ¹ , 3 or 3 kg / cm ² and a hydraulic gradient of 0.03 (3%) according to the JSF932-199X method of the Japan Geotechnical Society. And obtained by the following formula.
In-plane hydraulic conductivity = flowing water amount × sample length / water head × water permeability area (sample width × thickness) × flowing water amount time dynamic gradient = water head × sample length [Example 1]
A fiber drainage material A was prepared as follows. That is, using a warp knitting machine having a 14-gauge double-row needle bed in which a knitting element capable of knitting a rigid monofilament is used, a nylon monofilament having a top surface texture of L1 and a single yarn diameter of 0.165 mm, N2 multifilament of 225d / 15f for L2 下面, nylon multifilament of 225d / 15f for both L5 and L6 筬 as the bottom ground structure, and single yarn diameter 0. A 165 mm nylon monofilament was passed through a full set, and a knitted fabric sheet having a thickness of 5 mm was prepared from the organization chart of FIG.
[0027]
The nylon mix ratio of monofilaments Tan'ito径0.165mm sheets 68 wt%, the fiber loading is no placement 14.1% under load, 1 kg / cm ² 16.7% during loading or less, 2 kg / cm ² 21.2% or less at the time of loading, 37.4% at the time of ² kg loading, and the in-plane permeability coefficient under the condition of a hydraulic gradient of 0.03% (3%) is 11 cm / sec at the time of no loading, 1 kg / cm ² loading when 1.4cm / sec, 2kg / cm ² loading at 0.7cm / sec, 3kg / cm ² loading at 0.6 cm / sec, and the became fiber excellent drainage material a exhibits very high in-plane permeability.
[0028]
[Comparative Example 1]
Instead of the nylon monofilament with a single yarn diameter of 0.165 mm for L3 and L4 as shown in [Example 1], a nylon monofilament with a single yarn diameter of 0.10 mm was used, and the thickness was 5 mm under the same conditions as in [Example 1]. A knitted fabric sheet was created. The mixture ratio of nylon monofilament with a single yarn diameter of 0.165 mm in this sheet was 14% by weight. The hydraulic gradient 0.03 (3%) inner surface Permeability no mounting load at 11cm / sec in conditions, 1 kg / cm ² loading at 0.7cm / sec, 2kg / cm ² loading at 0.09 cm / sec, a 3 kg / cm ² loading at 0.06 cm / sec, was not able to secure a desired inner surface permeability.
[0029]
In addition, in the said embodiment, although the fiber drainage material A was laid between the upper impermeable sheet 3 and the lower impermeable sheet 2, it is not limited to this, The position with the impermeable sheet in laying The relationship is not particularly restricted. For example, in the case of a waste disposal site using a single water shielding sheet, in order to quickly drain leachate, it may be laid on at least the water shielding sheet.
[0030]
Moreover, in the said embodiment, if the fiber drainage material A is a water-impervious structure provided with a water leak detection system, it can be used also as a water guiding material for operating the water leak detection system in addition to the drainage action. is there.
[0031]
Furthermore, since fiber drainage material A has compression resistance and cushioning properties, it is also effective as a protective material to prevent damage to the water-impervious sheet due to impact. By doing so, it also serves as a protective material. Of course, if it is laid between the water-impervious sheet and the ground, the protective effect is further improved.
[0032]
【The invention's effect】
As described above, the sheet-like fiber drainage material of the present invention contains at least one of monofilaments and monomultifilaments, and a fiber having a single yarn diameter of 0.14 mm or more in a constituent fiber material of 30% by weight or more. , fiber filled amount per unit volume, no loading at 40% or less, 1kg / cm ² 43% during loading or less, 2kg / cm ² 50% during loading or less, is set to 3kg / cm ² 75% during loading or less, The inner surface permeability coefficient at the time of each loading under the condition of a dynamic water gradient of 0.03 is set to 0.1 cm / sec or more, and is composed of a knitted fabric having a thickness of 2 to 20 mm. Excellent resistance to water, high voids and cushioning properties. Excellent drainage and water transfer effect. Further, since the sheet is thick and has cushioning properties, the effect of protecting the water shielding sheet from the impact of heavy machinery during construction of a waste disposal site or the impact of waste dumped material is extremely great.
[0033]
As described above, the fiber drainage material of the present invention exhibits accurate in-plane water permeation / drainage performance even under a high load that quickly drains and conducts leachate in the pit of the waste final disposal site. Moreover, by incorporating it into the water leakage detection system in the double water-impervious sheet installed on the pit slope / bottom surface, water leakage can be detected quickly and reliably.
[0034]
Furthermore, since the fiber drainage material has an appropriate thickness, cushioning properties, and strength, it has an impact resistance and also exhibits a function as a protective material.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a waste disposal site showing an embodiment of the present invention.
FIG. 2 is a knitting organization chart of the knitted fabric sheet.
[Explanation of symbols]
1 Waste disposal site 2 Lower impermeable sheet 3 Upper impermeable sheet A Textile drainage materials L1 to L6 筬

Claims (2)

A fiber drainage material provided on the drainage surface side of a water shielding sheet laid at a waste disposal site, which is at least one of monofilament or monomultifilament and has a single yarn diameter of 0.14 mm or more wherein the constituent fibers material 30 wt% or more, the fiber loading per unit volume, no loading at 40% or less, 1 kg / cm ² 43% during loading or less, 2 kg / cm ² 50% during loading or less, 3 kg / cm ^In a knitted fabric that is set to 75% or less at the time of ^two loadings, the inner surface hydraulic conductivity at the time of each loading under the condition of a hydrodynamic gradient of 0.03 is set to 0.1 cm / sec or more, and the thickness is 2 to 20 mm fibers drainage member, characterized in that it is configured. The fiber drainage material according to claim 1, wherein the strength of the constituent fiber material is set to 100 kg / m or more in the vertical direction and 50 kg / m or more in the horizontal direction.

Images