JP4448257B2 - Construction method of ground sheet purification sheet pile wall and ground water purification equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a groundwater purification sheet pile wall used when purifying contaminated groundwater on the spot, and a construction method of a groundwater purification facility using the groundwater purification sheet pile wall.
[0002]
[Prior art]
Conventionally, there has been proposed a method for purifying contaminated groundwater on the spot when the groundwater is contaminated.
For example, in Japanese Examined Patent Publication No. 6-104975, a hollow wall having water permeability intersects with the flowing direction of contaminated groundwater to a depth reaching the underground impermeable layer, and the wall A method is disclosed in which a purifying agent is detachably accommodated therein so that the purifying agent passes through the purifying agent when underground contaminated water flows down.
In addition, the hollow wall body includes a pair of perforated plates and a plurality of spacer-use structural members that are disposed between the perforated plates at a predetermined interval and support the perforated plates, and the hollow tubes are densely packed. Some have been arranged in a state. Moreover, the construction of the wall body in the ground applies the continuous underground wall construction method.
[0003]
JP-A-11-156351 discloses a method for purifying groundwater contaminated with organic halogen compounds or heavy metals by arranging columns containing metal-based reducing agents or adsorbing substances in a row in the ground, A plate made of a biodegradable polymer containing a metal reducing agent or adsorbent is continuously placed in the ground, a metal reducing agent is injected into the groundwater contamination area, or a metal reducing agent or adsorbent is contaminated with groundwater. A method of stirring and mixing in the region is disclosed.
[0004]
[Problems to be solved by the invention]
By the way, in the groundwater purification method of the former gazette, the wall body is constructed using the continuous underground wall construction method, and the structure is constructed in the ground. Therefore, when a building is constructed on the surface of the groundwater purification position after the purification is completed, it is necessary to remove the wall body which is an underground structure. However, the wall body constructed by applying the continuous underground wall construction method has not necessarily been designed for removal, so there has been a problem that the removal work requires a large amount of money and labor. Therefore, there was a high possibility that the underground wall would be left without being removed, and the land use method after the completion of purification had to be restricted.
[0005]
In the former publication, the purifying agent is removably accommodated in the wall body. Specifically, the purifying agent is filled in the wall body in a state where the purifying agent is placed in the housing container. However, the container that contains the purifier disposed in the wall that reaches the water-impermeable layer may itself be a heavy article, and has a considerable weight considering the weight of the purifier. It becomes. Moreover, when raising for the replacement or removal of the purifying agent, it is necessary to consider the water content, and the weight of the container increases. Therefore, there has been a problem in the construction method and economy, such that a relatively large heavy machine is required for the operation of lifting the container.
[0006]
On the other hand, in the groundwater purification method of the latter publication, when the columns containing the purification agent are arranged in a row in the ground, the reducing agent, the adsorbing substance or the cylindrical bag is placed in the casing pipe formed by the excavation by the Nakabori method. It is filled with the reducing agent and adsorbing material, and then the casing pipe is pulled out. In the latter publication, when a biodegradable polymer plate containing a reducing agent or an adsorbing substance is disposed in the ground, the biodegradable polymer is degraded in the ground. In addition, when a reducing agent is injected into a contaminated area, or when a reducing agent or an adsorbent is stirred and mixed in a contaminated area, a structure is basically not provided in the ground.
[0007]
Therefore, according to the latter publication, the structure does not remain in the ground where the groundwater is purified, and the removal work of the structure is not required when the land is used after the purification is completed. However, it is basically difficult to remove the reducing agent and adsorbent buried in the ground without being protected by the structure, leaving the reducing agent and adsorbent in the ground. End up. Even if the reducing agent and the adsorbent are basically harmless, the soil properties will change significantly. In addition, when an adsorbent is used, the adsorbent basically adsorbs rather than detoxifies the pollutant, so that the pollutant adsorbed on the adsorbent remains in the ground. .
[0008]
An object of the present invention is to provide a construction method of a groundwater purification facility using the groundwater purification sheet pile wall that can purify contaminated groundwater on the spot and can be easily removed, and the groundwater purification sheet pile wall. That is.
[0009]
[Means for Solving the Problems]
The present invention Land of The sewage purification sheet pile wall is, for example, as shown in FIG. 1 to FIG. 3, a ground sheet purification sheet pile wall provided with a ground water purification function on a sheet pile wall composed of a plurality of connected steel pipe sheet piles. The water permeable steel pipe sheet pile 2 provided with joint portions 23 and 24 for joining the steel pipes 22 to the steel pipe 22 provided with water permeability at the side part by forming the holes 21 in the side, and the permeable steel pipe sheet piles The permeable steel pipe sheet piles are connected to each other in the ground in a state in which the permeable steel pipe sheet piles are joined to each other by a joint portion, and the joint portion between the joint portions is water-stopped by a water-stopping material. It is characterized by that.
[0010]
According to the above configuration, the contaminated groundwater is purified by the purification agent filled in the permeable steel pipe sheet pile when passing through the permeable steel pipe sheet pile having a plurality of holes formed on the side surface and having water permeability. It will be. In addition, since the water-permeable steel pipe sheet piles are connected by a joint and the joint part is water-stopped, it is possible to prevent uncontaminated groundwater from passing through the connection part of the water-permeable steel pipe sheet piles. Can do.
In addition, the present invention is basically a sheet pile wall made of a steel pipe sheet pile that is a temporary structure, and can be pulled out and removed easily and at a low cost in the same manner as a general steel pipe sheet pile wall. Therefore, the land after the groundwater purification can be effectively used by removing the groundwater purification sheet pile wall, which is a purification facility, after the purification of the contaminated groundwater is completed. In other words, it is possible to construct a building on the site after purification of groundwater.
[0011]
In addition, as purification agents, well-known purification agents such as various oxidizing agents and reducing agents that detoxify pollutants by oxidation-reduction reactions, those that detoxify pollutants by other chemical reactions, and those that adsorb pollutants. An agent can be used. Moreover, you may use as a purification agent what attaches microorganisms etc. to crushed stone, gravel, etc., and purifies | cleans by decomposition | disassembly reaction etc. of microorganisms.
[0012]
Moreover, it is preferable that the purification | cleaning agent with which it fills in a water-permeable steel pipe sheet pile is filled with the state accommodated in the bag, the container, etc., Thereby, replacement | exchange and removal of a purification | cleaning agent are attained easily.
Further, when press-fitting the permeable steel pipe sheet pile, for example, using a screw-like earth auger or the like, while pressing the permeable steel pipe sheet pile while excavating the earth and sand in the permeable steel pipe sheet pile, It is preferable that the earth and sand be discharged. If it does in this way, while being able to press-fit a water-permeable steel pipe sheet pile easily, when filling a purification | cleaning agent, it can be set as the state which already evacuated the inside of a water-permeable steel pipe sheet pile.
[0013]
Moreover, the water stop of a joint part can be performed by well-known methods, such as inject | pouring the hardening material which has a certain level of water stop, such as grout material, mortar, and cement milk, into the connected joint part.
Moreover, when constructing a sheet pile wall for purifying groundwater, it is necessary to arrange it at a position intersecting with the flow of contaminated groundwater so as to block the flow of contaminated groundwater. In addition, in order to reliably prevent the outflow of contaminated groundwater, the groundwater purification sheet pile wall surrounds the groundwater contaminated area except for the upstream side of the groundwater flow in the groundwater contaminated area. It is preferable to arrange the sheet pile wall for purifying the ground water so as to surround the entire area where the ground water is contaminated.
[0014]
Moreover, you may use together the sheet pile wall for groundwater purification with the sheet pile wall which has water-imperviousness. That is, in the case where the entire contaminated area or the portion excluding the upstream side of the groundwater flow is surrounded by the groundwater purification sheet pile wall as described above, the contaminated area is basically formed by a sheet pile wall having water shielding properties. In addition to surrounding the sheet water, only the part intersecting with the flow of groundwater or a part thereof may be disposed with the sheet pile wall for purifying ground water according to the present invention instead of the water-impervious sheet pile wall.
Moreover, you may arrange | position a water-impervious sheet pile wall so that the flow of groundwater may face the sheet pile wall for groundwater purification.
[0015]
The present invention Land of The sewage purification sheet pile wall is, for example, as shown in FIG. The ground In the sewage purification sheet pile wall, the permeable steel pipe sheet piles joined to each other by the joint portions 28 and 29 are relatively relative to each other with the joint portion between the joint portions as the center of rotation along the axial direction of the permeable steel pipe sheet pile. The angle formed by the extension lines of the diameters of the permeable steel pipes that pass through the joint portion that joins the permeable steel pipes when the permeable steel pipe sheet piles are embedded can be arbitrarily set. It is characterized by.
[0016]
According to the above configuration, the permeable steel pipe sheet piles joined to each other by the joint portion are rotatable relative to each other with the joint portion between the joint portions as the center of rotation along the axial direction of the permeable steel pipe sheet pile. Therefore, when the water-permeable steel pipe sheet piles are sequentially press-fitted sequentially, the water-permeable steel pipe sheet piles that are continuously press-fitted are arranged side by side without changing the arrangement and shape of the joints. The direction of going can be changed arbitrarily. That is, it is possible to freely arrange the sheet pile wall for purifying groundwater in a zigzag manner, bend it at a plurality of positions, or bend it at a small angle without changing the shape and position of the joint portion. .
[0017]
By adopting such a configuration, for example, when arranging a sheet pile wall for purifying groundwater within a limited distance, it is possible to arrange a sufficient amount of the purifying agent with respect to the flow rate of groundwater and the degree of contamination. In difficult cases, for example, the groundwater purification sheet pile wall is arranged in a zigzag, curved, or bent at multiple locations, so that it is substantially disposed within a limited distance. A sufficient amount of the purifying agent can be disposed by increasing the length of the sheet pile wall for purifying the groundwater.
[0018]
Moreover, when arranging the sheet pile wall for purifying groundwater as described above, the same permeable steel pipe sheet pile arranged at the portion to be bent as described above is also used at the straight portion. Therefore, when constructing a sheet pile wall for purifying groundwater, there are no plural types of permeable steel pipe sheet piles, management becomes easy, and cost can be reduced.
[0019]
In addition, the joint part which can change an angle as mentioned above is, for example, a joint part connected to each other in an arc shape, and the other arc-shaped joint part is arranged inside one arc-shaped joint part. Alternatively, one joint portion is formed in an arc shape with an opening on the other joint portion side, and the other joint portion is formed in a cylindrical shape or a column shape smaller than the radius of the one arc-shaped joint portion.
[0020]
The present invention Land of The sewage purification sheet pile wall is, for example, as shown in FIG. The ground In the sewage purification sheet pile wall, a rigid permeable container (metal mesh ridge 3) such as a cylindrical mesh ridge is accommodated in the permeable steel pipe sheet pile, and the permeable container is filled with a purifier. Features.
[0021]
According to the above configuration, the inside of the permeable steel pipe sheet pile is housed in a hard permeable container, and the permeable container is filled with the purifying agent, thereby preventing clogging of the holes of the permeable steel pipe sheet pile. be able to. In addition, when the purifier is replaced or removed, the internal purifier can be easily taken out by taking out the hard water-permeable container. In addition, when the purifier is put in a bag as described later, and the purifier is exchanged and removed for each bag, the bag containing the purifier is put in a hard water-permeable container. Can protect the bag.
[0022]
The present invention Land of The sewage purification sheet pile wall is, for example, as shown in FIG. The ground In the sewage purification sheet pile wall, the purifying agent is filled in a flexible bag-shaped water permeable container (bag 4), and the bag-shaped water permeable container is stored in a state of being stacked in multiple layers in the water permeable steel pipe sheet pile. It is characterized by being.
[0023]
According to the said structure, since the purification | cleaning agent is put into the bag, replacement | exchange or removal of the purification | cleaning agent for every bag can be performed. Moreover, since the bag is accommodated in the permeable steel pipe sheet pile in a state where it is laminated in multiple stages, even if the permeable steel pipe sheet pile is long, each bag is not so large. When the bag is taken in and out from the sheet pile, the weight of each bag containing the purifying agent does not increase so much, and the bag can be taken in and out relatively easily.
[0024]
The present invention Land of The sewage purification sheet pile wall is, for example, as shown in FIG. The ground In the sewage purification sheet pile wall, in order to lengthen the residence time of the groundwater to be purified in the permeable steel pipe sheet pile, a water flow guiding member 7 for guiding the ground water flow path to bend is inserted in the steel pipe sheet pile. It is characterized by that.
[0025]
According to the above configuration, when contaminated groundwater passes through the permeable steel pipe sheet pile in a state where the permeable steel pipe sheet pile is filled with the purification agent, the passage speed of the ground water is too fast, and sufficient purification by the purification agent is performed. In the case where the action cannot be received, the residence time of contaminated groundwater in the permeable steel pipe sheet pile can be increased to sufficiently purify the groundwater.
[0026]
The present invention Land of The construction method of the sewage purification equipment is the claims 1 to 4 A groundwater purification facility construction method using the groundwater purification sheet pile wall according to any one of the above, having water permeability at a position intersecting at least the groundwater flow in the periphery of the groundwater contamination area The groundwater purification sheet pile wall having a function of purifying groundwater is provided so as to reach the impermeable layer, and connected to the left and right of the groundwater purification sheet pile wall, together with the groundwater purification sheet pile wall, the groundwater A water-impervious sheet pile wall that reaches the impermeable layer is provided so as to surround at least the downstream side of the contaminated area, and when the ground water purification sheet pile wall is provided, the water-permeable steel pipe sheet pile is connected to the ground using the joint portion. It press-fits into a state, it fills with a purifier in the above-mentioned permeable steel pipe sheet pile, and water-stops the joined part of the above-mentioned joint parts with a water stop material.
[0028]
The present invention Land of For example, as shown in FIG. The ground In the construction method of the sewage purification equipment, when the permeable steel pipe sheet pile is filled with the purification agent, a rigid permeable container such as a cylindrical net is stored in the permeable steel pipe sheet pile, and then the permeable water pipe A flexible bag-like water-permeable container filled with a purifying agent is stored in a multi-layered state in a vertical container, and each bag-like water-permeable container has a long lifting member ( When the wire rope 5) is connected, the end of the lifting member opposite to the end connected to the bag-shaped water permeable container is fixed to the ground, and when the purifier is replaced, the lifting member is used. The purifying agent is pulled up and replaced for each bag-like water permeable container.
[0029]
According to the above configuration, the hard water-permeable container disposed in the water-permeable steel pipe sheet pile can prevent clogging of the water-permeable steel pipe sheet pile and protect the bag-like water-permeable container filled with the purifying agent. it can. Further, when pulling up, by using a lifting member whose one end is fixed on the ground, the purifier filled in the bag-shaped water permeable container can be easily put in and out of the water permeable steel pipe sheet pile. Moreover, since the bag-like permeable container is laminated vertically within the permeable steel pipe sheet pile, even if the permeable steel pipe sheet pile is long, the bag-like permeable container filled with the purifying agent is each lightweight. can do. Therefore, when lifting using the lifting member, a large heavy machine is not required, and the lifting can be performed with a small device.
[0030]
The construction method of the groundwater purification facility of the present invention is, for example, as shown in FIG. 7, in the method of constructing the groundwater purification facility, when the water-permeable steel pipe sheet pile is press-fitted into the ground using the joint portion. Water permeability that is press-fitted into the connected state without changing the linear distance from end to end of the water-permeable steel pipe sheet pile that is press-fitted into the connected state Steel pipe The permeable steel pipe sheet pile is press-fitted by bending the connecting direction of the permeable steel pipe sheet pile so as to increase the number of sheet piles.
[0031]
According to the above configuration, when it is difficult to arrange a sufficient amount of the purifying agent with respect to the flow rate of the groundwater and the degree of contamination when arranging the sheet pile wall for purifying groundwater within a limited distance, For example, it is possible to arrange a groundwater purification sheet pile wall in a zigzag manner, bend it in a curved manner, or bend it at a plurality of locations so as to be disposed within a limited distance. A sufficient amount of cleaning agent can be placed by increasing the wall length.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Below, the construction method of the sheet pile wall for groundwater purification and groundwater purification equipment of embodiment of this invention is demonstrated with reference to drawings.
First, the sheet pile wall for groundwater purification will be described. As shown in FIG. 1, the sheet pile wall for purifying groundwater in this example has a water-permeable sheet pile wall portion 10 made up of a large number of steel sheet piles 1 and a large number of holes 21 (shown in FIG. 2) on the side surface. It consists of the water-permeable sheet pile wall part 20 provided with the water-permeable steel pipe sheet pile 2 with the property.
[0033]
The water-stop sheet pile wall portion 10 is basically the same as a sheet pile wall used for an ordinary earth retaining wall or the like, and has a depth that reaches the water-impermeable layer of the ground in a state where the steel sheet piles 1 are continuously arranged. It is pressed and formed. Moreover, in the space of the junction part of the joint parts of the steel sheet pile 1, it is in the state where the water stop was carried out by inject | pouring mortar, cement milk, etc. with high water stop. Therefore, the water-stop sheet pile wall part 10 has a water stop as a whole, and prevents the flow of groundwater.
Further, the water-stop sheet pile wall portions 10 are respectively arranged on the left and right sides of the groundwater flow (arrow a) in the region where the ground water is contaminated, and the water stop sheet pile wall portions 10 on the left and right sides approach the water-permeable sheet pile wall portion 20. They are arranged diagonally so that the distance between them becomes narrow. The ends of the left and right water-stop sheet pile wall portions 10 on the downstream side of the groundwater are respectively connected to the left and right end portions of the water-permeable sheet pile wall portion 20. In addition, the junction part of the water-stop sheet pile wall part 10 and the water-permeable sheet pile wall part 20 is also in the state by which water stop.
Moreover, as shown in FIG. 1, it is good also as the state which opened the upstream of the contaminated area | region, and the water stop sheet pile wall part 10 is arrange | positioned also to the upstream side of the contaminated area | region, It is good also as the state completely enclosed with the sheet pile wall for groundwater purification.
[0034]
In addition, by surrounding a completely contaminated area with a sheet pile wall for purifying groundwater, it is possible to reliably prevent leakage of contaminated groundwater, but it will partially block the flow of groundwater. Determine whether the contaminated area is completely surrounded by the groundwater purification sheet pile wall or whether the upstream portion of the groundwater upstream of the groundwater purification sheet pile wall is open considering the situation at the site. There is a need to. Moreover, although the two water-stop sheet pile wall portions 10 are arranged so as to narrow toward the downstream side of the flow of groundwater, it is not always necessary to arrange the two water-stop sheet pile wall portions 10 in parallel with each other. Alternatively, the distance between the two water-stop sheet pile wall portions 10 may be narrowed toward the upstream side of the groundwater.
[0035]
The water permeable sheet pile wall portion 20 is a sheet pile wall made of the water permeable steel pipe sheet pile 2 described above. As shown in FIG. 2, the water-permeable steel pipe sheet pile 2 has a steel pipe 22 in which a large number of holes 21 are formed in a side surface portion, and positions where the side faces of the steel pipe 22 are substantially opposite to each other (the direction in which the direction is directed is substantially 180 A first joint portion 23 and a second joint portion 24 provided at different positions). The first and second joint portions 23 and 24 are joint portions generally used in steel pipe sheet piles. The first joint portion 23 has a substantially cylindrical shape extending up and down, is joined in a state of being aligned with the steel pipe 22, and extends up and down on the opposite side of the portion joined to the steel pipe 22. A slit 25 is formed. The second joint portion 24 protrudes along the radial direction of the steel pipe 22 from the side surface of the steel pipe 22 and extends vertically, and at the tip of the first thin plate 26, It is formed in a T-shape from a second thin plate 27 provided so as to be orthogonal to the first thin plate 26.
[0036]
And when joining two water-permeable steel pipe sheet piles 2 with the 1st and 2nd coupling parts 23 and 24 as shown in FIG. 3, for example, the cylinder of the water-permeable steel pipe sheet pile 2 previously press-fitted The first thin plate 26 of the second joint portion 24 of the water-permeable steel pipe sheet pile 2 that is press-fitted into the slit 25 portion of the first joint portion 23 is inserted, and the first joint portion The water-permeable steel pipe previously press-fitted by press-fitting the water-permeable steel pipe sheet pile 2 to be press-fitted later so that the second thin plate 27 of the second joint portion 24 is inserted into the cylinder 23. It will be in the state where the 2nd joint part 24 of the water-permeable steel pipe sheet pile 2 press-fitted into the 1st joint part 23 of the sheet pile 2 later was joined.
[0037]
Then, by injecting, for example, mortar or cement milk having a high water-stopping capacity into the cylinder of the first joint part 23, the joint part between the first joint part 23 and the second joint part 24 is given water-stopper. be able to.
The shape of the joint portion is not limited to this. For example, as shown in FIG. 4, the first joint portion 28 is cylindrical, and the opening 28 a is wider than the slit 25. Is provided on the opposite side of the steel pipe 22, and the second joint portion 29 is provided with a cylinder 29a having a diameter smaller than that of the first joint portion 28 at the tip of the first thin plate 26. good.
[0038]
With such a configuration, the permeable steel pipe sheet piles 2 joined together by the first and second joint portions 28 and 29 are connected to the joint portions 28 and 29 of the permeable steel pipe sheet pile 2. As a center of rotation along the axial direction, they can rotate and move relative to each other. In addition, although the range of a rotation angle will be restrict | limited by the width | variety of the opening part 28a of the cylindrical part of the 1st joint part 28, it curves the alignment direction of the water-permeable steel pipe sheet pile 2 in the joint parts 28 and 29 part. A sufficient rotation angle can be ensured to be bent or bent.
[0039]
Further, the permeable steel pipe sheet pile 2 is filled with a purifier, and in that case, as shown in FIG. 5, first, a wire mesh rod 3 is inserted into the permeable steel pipe sheet pile 2; A cloth bag 4 filled with a purifying agent is inserted into the wire mesh basket 3.
The wire mesh cage 3 is formed in a bottomed cylindrical shape having a slightly smaller diameter and a slightly shorter length than the permeable steel pipe sheet pile 2. The size of the mesh of the wire netting cage 3 is not particularly limited. However, as will be described later, when the purifying agent is put directly into the wire netting cage 3 without being put in the bag 4, the purifying agent is removed from the mesh. It is preferable that the mesh size is smaller than the purifier so as not to go out.
[0040]
Moreover, it is preferable that a hanging metal (not shown) is attached to the upper part of the metal mesh cage 3, and it is preferable that it can be lifted by a hook or the like of a crane. In addition, the wire netting 3 is basically a hard material having a strength capable of being self-supported, but preferably has a strength capable of being taken in and out of the permeable steel pipe sheet pile 2 while being filled with a purifier. If it has such intensity | strength, it can also replace | exchange the purifier | cleaning agent for every wire mesh cage | basket 3. In addition, when filling a purification agent directly without using the bag 4 in the water-permeable steel pipe sheet pile 2, or taking out a purification agent, in the case of a comparatively lightweight thing like activated carbon, for example, The cleaning agent may be taken out from the reinforcing bar 3 by using a vacuum pump so that the cleaning agent is pumped and filled or sucked out.
By using this wire mesh cage 3, clogging of the permeable steel pipe sheet pile 2 can be prevented, and the bag 4 filled with the purifying agent can be protected.
[0041]
The bag 4 is made of, for example, a fabric of chemical fiber or the like and has flexibility. For example, a flexible container bag formed of a fabric made of polyethylene or polypropylene can be used. Moreover, the bag 4 has a capacity of a fraction to a tenth of the capacity of the water-permeable steel pipe sheet pile 2, and is stored in a state of being laminated in the water-permeable steel pipe sheet pile 2 vertically. It has become so.
[0042]
Moreover, the wire rope 5 is connected to each bag 4, and the end on the opposite side to the end connected to the bag 4 of the wire rope 5 in a state where each bag 4 is housed in the permeable steel pipe sheet pile 2. The part has been put out on the ground. The end of the wire rope 5 that is put out on the ground is, for example, detachably connected to an anchor 6 fixed to the ground, or detachably connected to the upper part of the permeable steel pipe sheet pile 2 exposed on the ground. To be held. Therefore, when exchanging the purifier or removing the purifier, the bag 4 can be easily pulled up by pulling the wire rope 5.
[0043]
Moreover, with respect to one permeable steel pipe sheet pile 2, the several bag 4 is inserted in the state laminated | stacked up and down, and the capacity | capacitance of each bag 4 is with respect to the weight of the permeable steel pipe sheet pile 2 as mentioned above. Since each bag 4 has a relatively small weight, and the wire rope 5 is attached to each bag 4 as described above, the bag 4 is suspended by a relatively small heavy machine. Can be raised. For example, it is also possible to wind up the wire rope 5 with a winch provided in the tow truck and pull up the bag 4. Therefore, even if the relatively large road is not connected to the contaminated area or is away from the road, it is sufficient that the tow truck enters the contaminated area. There is no need to perform temporary road construction or the like so as to be close to the area.
[0044]
Further, since a large heavy machine that is expensive is not required, it is possible to replace the purifier and remove the purifier at an extremely low cost. In this example, a wire mesh rod 3 is inserted into the permeable steel pipe sheet pile 2, and the bag 4 filled with the purifier is stored inside the wire mesh rod 3 in a vertically stacked state. Alternatively, the bag 4 filled with the purifier may be directly accommodated in the water-permeable steel pipe sheet pile 2 without the wire mesh cage 3.
[0045]
Further, when the purification agent is directly filled in the wire mesh cage 3, a water flow guide member 7 as shown in FIG. (The first and second joint portions are not shown in FIG. 6) The water flow guide member 7 changes the flow of groundwater passing through the permeable steel pipe sheet pile 2 from a linear flow to a curved flow such as a zigzag shape. Thus, the residence time of groundwater in the permeable steel pipe sheet pile 2 is lengthened. That is, it is a member for preventing the purification agent and the groundwater from being in sufficient contact with each other due to the short residence time of the groundwater in the permeable steel pipe sheet pile 2 and not being completely purified.
[0046]
The water flow guiding member 7 basically blocks the flow of groundwater and slows the flux of groundwater, and further induces the flow of groundwater to further reduce the groundwater in the permeable steel pipe sheet pile 2. The residence time of the groundwater is increased by lengthening the trajectory of the water flow. And the water flow guide member 7 consists of the two guide parts 70, for example, and each guide part 70 mutually passes toward the inner side of the circular arc from the circular arc plate 71 along the inner surface of the water-permeable steel pipe sheet pile 2, and the circular arc plate 71. It consists of a plurality of baffle plates 72 arranged in a comb-teeth shape extending in parallel. In addition, the circular arc plate 71 and the baffle plate 72 are arrange | positioned in the state extended up and down within the water-permeable steel pipe sheet pile 2. FIG.
[0047]
The two guide portions 70 are arranged such that the baffle plates 72 of the other guide portion 70 are interposed between the baffle plates 72 of the one guide portion 70, so that the baffle plates 72 of the two guide portions 70. A zigzag path is formed between the two. The direction of the baffle plate 72 intersects with the flow of groundwater, for example. Moreover, it is preferable that the direction of the baffle plate 72 is substantially orthogonal to the flow of groundwater. And the clearance gap between the water flow guide members 7 will be in the state filled with the purification agent, and groundwater will contact the purification agent while flowing along the flow path lengthened by the water flow guide member 7, and in a longer time. It is possible to come into contact with the purifier and pass through the permeable steel pipe sheet pile 2 in a state of being reliably purified.
[0048]
If the bag 4 is filled with a purifier with the water flow guide member 7 in the bag 4, the water flow guide member 7 can be used even if the bag 4 is used. . Moreover, the water flow guide member 7 is not limited to the above-described configuration, and any member may be used as long as it partially blocks the flow of groundwater in the permeable steel pipe sheet pile 2. In addition to increasing the contact time with the cleaning agent and increasing the chance of contact with the cleaning agent, it not only blocks a part of the water flow, but also induces the flow of the water and makes the water flow path longer. It is preferable that the shape be such that
[0049]
Next, the construction method of the groundwater purification facility using the above-mentioned sheet pile wall for groundwater purification will be described.
First, the press-in method of the water-permeable steel pipe sheet pile 2 at the time of constructing the water-permeable sheet pile wall part 20 of the sheet pile wall for groundwater purification is demonstrated. In the press-fitting of the permeable steel pipe sheet pile 2, since it is necessary that the earth and sand in the permeable steel pipe sheet pile 2 is finally discharged, for example, the inside of the permeable steel pipe sheet pile 2 extends vertically. The permeable steel pipe sheet pile 2 is press-fitted into the ground while excavating with an earth auger equipped with a helical screw. Moreover, in press-fitting the water-permeable steel pipe sheet pile 2, a well-known steel pipe sheet pile or a steel pipe pile press-fitting device can be used. In addition, when the earth auger equipped with the screw is pulled out after the press-fitting of the permeable steel pipe sheet pile 2, the earth auger is rotated while rotating in the forward direction at the time of excavation, for example, so as to remove the earth and sand. Pull up.
[0050]
Moreover, when pressing in the water-permeable steel pipe sheet pile 2 sequentially, it press-fits so that the joint parts 23 and 24 may be joined as mentioned above. Moreover, the joint part 23 and 24 is water-stopped by inject | pouring into the joint parts 23 and 24 mortar etc. with high water-stopping property. Moreover, the water-permeable steel pipe sheet pile 2 may be press-fitted into a straight lined state as shown in FIGS. 1 and 3, or may be curved and lined as shown in FIG. As shown in FIG. 7B, it may be press-fitted in a zigzag state, or as shown in FIG. In addition, when the permeable steel pipe sheet pile 2 is bent and the permeable steel pipe sheet pile 2 is press-fitted as described above, it is preferable to use the joint portions 28 and 29 described above.
Moreover, the water-permeable sheet pile wall part 20 which consists of a water-permeable steel pipe sheet pile 2 is arrange | positioned so that the flow direction of groundwater in the contamination area | region of groundwater may be crossed.
[0051]
And in the construction of the water-stop sheet pile wall portion 10 in the construction of the groundwater purification sheet pile wall, the construction is performed in the same manner as the construction of the sheet pile wall using the normal steel sheet pile 1. Further, the water-stop sheet pile wall portion 10 is constructed on the left and right sides of the flow of the ground water so as to prevent the diffusion of the ground water flowing from the contaminated area, and the downstream end thereof is connected to the permeable sheet pile wall portion 20. The groundwater is guided to the permeable sheet pile wall 20.
[0052]
On the other hand, in the water permeable sheet pile wall portion 20, after the press-fitting of the water permeable steel pipe sheet pile 2 is finished, the wire mesh rod 3 is lowered and accommodated in the water permeable steel pipe sheet pile 2. Subsequently, the bags 4 filled with the purifying agent are sequentially put into the wire mesh basket 3, and the bags 4 are stacked one above the other. At this time, the wire rope 5 is connected to the bag 4 in advance, and the other end of the wire rope 5 is connected to the bag 4 with one end of the wire rope 5 left on the ground. It puts into the permeable steel pipe sheet pile 2. One end of the wire rope 5 is detachably connected to an anchor 6 or the like fixed to the ground.
[0053]
And the sheet pile wall for groundwater purification is constructed | assembled by filling all the water-permeable steel pipe sheet piles 2 with a purification agent. And in the sheet pile wall for groundwater purification, when the contaminated ground water flows down, it leads to the water permeable sheet pile wall portion 20 in a state of being led to the water-stop sheet pile wall portion 10, and the contaminated ground water passes through the permeable steel pipe sheet pile 2. It passes through and is purified by contact with the cleaning agent when it passes. In addition, although the purification | cleaning agent is not arrange | positioned at the junction part of the water-permeable steel pipe sheet pile 2 of the water-permeable sheet pile wall part 20 between the joint parts 23 and 24, water-proofness is provided to the junction part of the joint parts 23 and 24. Therefore, the groundwater cannot pass through and is guided to the steel pipe 22 parts of the left and right permeable steel pipe sheet piles 2 of the joint parts 23 and 24 and passes through the purifier part.
[0054]
Further, in the case where there is a possibility that the groundwater cannot be sufficiently purified at a fast speed through which the purifier passes through the groundwater, for example, the permeable sheet pile wall portion 20 is curved or zigzaged as described above. By making the water permeable sheet pile wall portion 20 into a plurality of rows, it is possible to reduce the amount of groundwater passing per permeable steel pipe sheet pile 2 and sufficiently purify the ground water.
Moreover, by providing the water flow guide member 7 in the permeable steel pipe sheet pile 2, it is possible to sufficiently purify the ground water by extending the residence time of the ground water in the permeable steel pipe sheet pile 2. In consideration of the relationship with the flow rate of groundwater, it is also necessary to prevent the flow of groundwater from significantly increasing the groundwater level. In some cases, a permeable steel pipe sheet pile 2 (permeable sheet pile wall portion 20) is disposed. The straight line distance may be increased.
[0055]
And when the purification capability of a purification agent falls, the purification capability can be maintained by replacing | exchanging purification agents. When replacing the cleaning agent, the cleaning agent for each bag 4 can be easily recovered by winding up the wire rope 5 connected to the bag 4 and connected to the anchor 7 by, for example, a winch of a tow truck. it can. And the replacement | exchange of a purification agent is complete | finished by throwing into the water-permeable steel pipe sheet pile 2 the bag 4 filled with the new purification agent.
[0056]
In addition, if the contamination of the groundwater contamination area is purified and it is determined that there is no need for purification, the groundwater purification sheet pile wall will be removed. The purifier is removed by the same method. Next, the wire mesh cage 3 in the permeable steel pipe sheet pile 2 is lifted and removed.
Subsequently, the water-permeable steel pipe sheet pile 2 and the steel sheet pile 1 are pulled out and removed. In this case, the water-permeable steel pipe sheet pile 2 is obtained by a well-known method similar to the case of removing the normal steel sheet pile 1 and the steel pipe sheet pile. And the steel sheet pile 1 can be removed.
[0057]
That is, the sheet pile wall for purifying groundwater can be removed very easily and at a lower cost than the removal of the underground continuous wall. Moreover, since a purification agent can also be removed easily as mentioned above, a purification agent does not remain in the soil after purification.
Therefore, since no structure or cleaning agent is left in the ground, land use after purification is not particularly limited, and the land after purification can be used effectively.
[0058]
【The invention's effect】
The present invention Land of According to the sewage purification sheet pile wall, the basic structure is a sheet pile wall made of a steel pipe sheet pile, which is a temporary structure, and can be pulled out and removed easily and at a low cost in the same manner as a general steel pipe sheet pile wall. It is. Therefore, the land after the groundwater purification can be effectively used by removing the groundwater purification sheet pile wall, which is a purification facility, after the purification of the contaminated groundwater is completed.
[0059]
The present invention Land of According to the sewage purification sheet pile wall, the permeable steel pipe sheet piles joined to each other by the joint portion rotate relative to each other with the joint portion between the joint portions as the center of rotation along the axial direction of the permeable steel pipe sheet pile. Because it is made movable, when permeable steel pipe sheet piles are sequentially press-fitted sequentially, the permeable steel pipe sheet piles that are continuously press-fitted are arranged without changing the arrangement or shape of the joints. It is possible to arbitrarily change the direction of the arrangement. That is, it is possible to freely arrange the sheet pile wall for purifying groundwater in a zigzag manner, bend it at a plurality of positions, or bend it at a small angle without changing the shape and position of the joint portion. .
[0060]
The present invention Land of According to the sewage purification sheet pile wall, since the hard permeable container is accommodated in the permeable steel pipe sheet pile and the permeable container is filled with the purifying agent, the clogged holes of the permeable steel pipe sheet pile are prevented. Can be prevented. In addition, when the purifier is replaced or removed, the internal purifier can be easily taken out by taking out the hard water-permeable container. In addition, when the purifier is put in a bag as described later, and the purifier is exchanged and removed for each bag, the bag containing the purifier is put in a hard water-permeable container. Can protect the bag.
[0061]
The present invention Land of According to the sewage purification sheet pile wall, since the purifying agent is put in the bag, the purifying agent for each bag can be replaced or removed. Moreover, since the bag is accommodated in the permeable steel pipe sheet pile in a state where it is laminated in multiple stages, even if the permeable steel pipe sheet pile is long, each bag is not so large. When the bag is taken in and out from the sheet pile, the weight of each bag containing the purifying agent does not increase so much, and the bag can be taken in and out relatively easily.
[0062]
The present invention Land of According to the sewage purification sheet pile wall, when the contaminated groundwater passes through the permeable steel pipe sheet pile with the purification agent filled in the permeable steel pipe sheet pile, the passage speed of the ground water is too fast, In the case where sufficient purification action cannot be received, the residence time of the contaminated groundwater in the permeable steel pipe sheet pile can be increased to sufficiently purify the groundwater.
[0064]
The present invention Land of According to the construction method of the sewage purification equipment, the hard permeable container disposed in the permeable steel pipe sheet pile can prevent clogging of the permeable steel pipe sheet pile, and the bag-like permeable container filled with the purification agent is provided. Can be protected. Further, when pulling up, by using a lifting member whose one end is fixed on the ground, the purifier filled in the bag-shaped water permeable container can be easily put in and out of the water permeable steel pipe sheet pile.
[0065]
The present invention Land of According to the construction method of sewage purification equipment, it is difficult to arrange a sufficient amount of purification agent for the flow rate of groundwater and the degree of contamination when placing a sheet pile wall for purifying groundwater within a limited distance. In this case, for example, by arranging the sheet pile wall for purifying groundwater in a zigzag manner, by placing it in a curved manner, or by arranging it by bending it at a plurality of locations, it is substantially arranged within a limited distance. A sufficient amount of the purifying agent can be disposed by increasing the length of the sheet pile wall for purifying groundwater.
[Brief description of the drawings]
FIG. 1 is a plan view illustrating an outline of a sheet pile wall for purifying groundwater according to an embodiment of the present invention.
FIG. 2 is a plan view and a side view showing a water-permeable steel pipe sheet pile used for the above groundwater purification sheet pile wall.
FIG. 3 is a plan view and a side view showing a water-permeable sheet pile wall portion of the groundwater purification sheet pile wall.
FIG. 4 is a plan view showing a water permeable steel pipe sheet pile provided with a joint portion different from the water permeable steel pipe sheet pile.
FIG. 5 is a cross-sectional view of a water-permeable steel pipe sheet pile for explaining the internal structure of the water-permeable steel pipe sheet pile.
FIG. 6 is a plan view of a permeable steel pipe sheet pile showing a water flow guiding member disposed in the permeable steel pipe sheet pile.
FIG. 7 is a drawing for explaining the shape of a water permeable sheet pile portion in the above groundwater purification sheet pile wall.
[Explanation of symbols]
1 Steel sheet pile
2 Permeable steel pipe sheet pile
3 Wire mesh cage (hard permeable container)
4 bags (bag-like permeable containers)
5 Wire rope (lifting member)
6 Anchor
7 Water flow induction member
10 Water-stop sheet pile wall (water-proof sheet pile wall)
20 Permeable sheet pile wall
22 Steel pipe
23 First joint
24 Second joint
28 First joint
29 Second joint

Claims (5)

It is a sheet pile wall for purifying groundwater with a purification function of groundwater on a sheet pile wall composed of a plurality of connected steel pipe sheet piles,
A water-permeable steel pipe sheet pile provided with a joint part for joining the steel pipes to a steel pipe having water permeability on the side parts by forming a plurality of holes in the side parts,
A rigid water permeable container such as a cylindrical mesh cage housed in the water permeable steel pipe sheet pile;
A purification agent filled in the water permeable container ,
The purifying agent is filled in a flexible bag-shaped water permeable container, the bag-shaped water permeable container is accommodated in a state of being stacked in multiple stages in the water permeable steel pipe sheet pile, and each bag-shaped water permeable container The long lifting member is coupled, and the end of the lifting member opposite to the end connected to the bag-shaped water permeable container is fixed to the ground.
The water-permeable steel sheet piles are connected to each other in the ground in a state where the sheet piles are joined together at a joint part, and the joint part between the joint parts is stopped by a water-stopping material. wall. In the sheet pile wall for groundwater purification according to claim 1,
The water permeable steel pipe sheet piles joined together by the joint portion are rotatable relative to each other with the joint portion between the joint portions as a center of rotation along the axial direction of the water permeable steel pipe sheet pile. A sheet pile wall for purifying groundwater, wherein an angle formed by extension lines of the diameters of the water-permeable steel pipes passing through a joint portion for joining the water-permeable steel pipes can be arbitrarily set when the steel pipe sheet piles are embedded. In the sheet pile wall for groundwater purification as described in any one of Claims 1-2 ,
In order to lengthen the residence time of the groundwater to be purified in the permeable steel pipe sheet pile, a water flow guiding member for guiding the ground water flow path to be bent is inserted in the steel pipe sheet pile. Sheet pile wall. It is the construction method of the groundwater purification equipment using the sheet pile wall for groundwater purification as described in any one of Claims 1-3 ,
The groundwater purification sheet pile wall having water permeability and a function of purifying groundwater passing therethrough at least at a position intersecting the flow of groundwater in the periphery of the groundwater contamination region is provided so as to reach the impermeable layer,
And, connected to the left and right of the groundwater purification sheet pile wall, together with the groundwater purification sheet pile wall, providing a water-impervious sheet pile wall that reaches an impermeable layer so as to surround at least the downstream side of the contaminated area of the groundwater,
When providing the groundwater purification sheet pile wall, the water-permeable steel pipe sheet pile is press-fitted into the ground and connected using the joint portion,
In the water-permeable steel pipe sheet pile, a hard water-permeable container such as a cylindrical mesh bag is accommodated, and then, in the water-permeable container, a bag-like water-permeable container having a flexibility filled with a purifying agent, It shall be stored in a stacked state in upper and lower stages, and a long lifting member is connected to each bag-shaped water permeable container, and the opposite side of the end of the lifting member connected to the bag-shaped water permeable container The end of the
When exchanging the purifying agent, the purifying agent is pulled up and exchanged together with the bag-like water permeable container using the lifting member
A construction method for a groundwater purification facility, wherein a joint portion between the joint portions is water-stopped by a water-stop material. In the construction method of the groundwater purification facility according to claim 4,
When press-fitting the permeable steel pipe sheet pile into the ground and connected to the ground using the joint part,
Connection of permeable steel pipe sheet piles to increase the number of permeable steel pipe sheet piles pressed into the connected state without changing the linear distance from end to end of the permeable steel pipe sheet pile pressed into the connected state. A method of constructing a groundwater purification facility characterized by bending a direction and press-fitting a permeable steel pipe sheet pile.

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