This application claims priority to Chinese Patent Application No. 202110657097.3, filed on Jun. 11, 2021, the contents of which are hereby incorporated by reference.
The application relates to a pumping method of a large-diameter horizontal pressurized long dewatering well for inexhaustible pumping strata.
At present the foundation pit in most construction projects mostly adopts the light well point and tube well dewatering method in north China, for example Beijing. Because the light well point is no longer applicable in the water-rich strata of a deep and large foundation pit, the tube well dewatering is almost “the only choice”, which seems to be a universal dewatering method. However, poor design, construction and maintenance of dewatering wells lead to unsatisfactory foundation pit dewatering, even failure of anchor rods or composite soil nailing walls, failure of supporting system, damage to surrounding environment, crack or even collapse of surrounding buildings and structures, which are severe consequences. For example, in the foundation pit of Beijing Jing'ao Building, the composite soil nailing wall performed poor deformation control due to poor dewatering effects, which causes that the 16-story residential building on the east side only was equipped with the elevator to the 15th floor at most, which was later identified as a dilapidated building. The 6-story residential building on the south side was suspended after the foundation pit collapsed, so residents could not get inside, and at last the two residential buildings were both demolished. For another example, in the case of the basement of Beijing Jiuzhang Building, the foundation pit was supported by piles and anchors, and the dewatering well was arranged between two slope piles due to site space restrictions, which failed to control groundwater. The foundation pit collapsed after a heavy rain, and the six-story residential building on the south side collapsed, so that residents could not go inside, and were arranged in hotels. Finally, the whole basement with finished floors was filled, and the basement was terminated. The design, construction and maintenance of the dewatering well is also one of the causes of the accident. Such cases can be seen everywhere.
Especially when there is interbedded soil of sand soil layer or sand pebble layer and clay soil layer, the tube well dewatering is poorer. Because clay soil layer supports aquifer, the tube well dewatering effect is poor, and the water level of pumping well is very low, but there is still a lot of water on the slope, which not only brings trouble to the construction of supporting excavation, but also takes time and efforts to form holes with a soil nailing anchor, and the bearing capacity is greatly impaired. Water draining in the pit is the only choice when earthwork is excavated and transported, and sometimes “mud” is the thing to be transported and negatively affects the surrounding environment of the foundation pit, which is commonly known as “inexhaustible pumping strata”. At present, the general practice is to insert drain pipes on the slopes, drill holes of 0.5-1.0 m with Luoyang shovel or drill rig, place a plastic pipe and fill the pipe with some stone chips. This practice is sometimes effective when there is very little water, only “addressing the symptoms instead of causes” in most cases, and makes extremely limited contribution or even proves almost ineffective.
The application proposes a pumping method of a large-diameter horizontal pressurized long dewatering well for inexhaustible pumping strata, has advantages of accurate positioning, strong pertinence and quick effects, and can alleviate the settlement deformation of the environment around the foundation pit caused by holes drilling and water drainage.
In order to achieve the above objective, the technical scheme adopted by the application is as follows:
a pumping method of a large-diameter horizontal pressurized long dewatering well for inexhaustible pumping strata, including the following steps:
For the pumping method of a large-diameter horizontal pressurized long dewatering well for inexhaustible pumping strata, the drain pipes are made of polyvinyl chloride (PVC) hard plastic, the water inlet holes on the drain pipes are distributed in pentagon shape, and the outer wall and two ends of the drain pipes are wrapped with a double-layer dense mesh of 60 mesh, and the drain pipes are filled with stones or stone chips to ensure that only water can be discharged instead of sand and gravel.
For the pumping method of a large-diameter horizontal pressurized long dewatering well for inexhaustible pumping strata, the air ducts are also made of polyvinyl chloride (PVC) hard plastic; only 1/10 of a total length of a bottom end of the air ducts is provided with 2-3 rows of exhaust holes, which are distributed circumferentially, the outer wall and two ends of the air ducts are wrapped with double-layer dense mesh of 60 meshes, the inside is hollow and the air ducts are connected with the air pipe of the air compressor through a reducing joint.
The application has the advantages below:
(1) The method is precise and targeted: the positions of horizontal long wells and pressurized air wells are accurately determined through site excavation of the side wall of foundation pit combined with geological survey report, so that good accuracy of drilling horizontal wells for “inexhaustible pumping” strata is ensured.
(2) The method is quick-acting: by making full use of the advantage that the horizontal permeability coefficient is far greater than the vertical permeability coefficient, the water in the aquifer strata is quickly discharged, and the “inexhaustible pumping strata” is turned into a dewatering strata.
(3) The bearing capacity of the soil nail anchor is guaranteed. As the horizontal long well is as long as the upper row of soil nails or anchor rods, the water within the whole length of the soil nail or anchor rod is ensured to be discharged, and the side friction resistance is not affected, so that the bearing capacity of the soil nail or anchor rod is not affected.
(4) The pressurized air wells have dual functions. In addition to pressurizing the water in the aquifer to flow to the horizontal long well as soon as possible, it can also alleviate the influence of holes drilling and water-discharging on the settlement deformation of the surrounding environment of the foundation pit.
As shown in
The drain pipes are made of polyvinyl chloride (PVC) hard plastic, the water inlet holes on the drain pipes are distributed in pentagon shape, and the outer wall and two ends of the drain pipes are wrapped with a double-layer dense mesh of 60 mesh, and the drain pipes are filled with stones or stone chips to ensure that only water can be discharged instead of sand and gravel.
The air ducts are also made of polyvinyl chloride (PVC) hard plastic; only 1/10 of a total length of the bottom end of the air ducts is provided with 2-3 rows of exhaust holes, which are distributed circumferentially, the outer wall and two ends of the air ducts are wrapped with double-layer dense mesh of 60 meshes, and hollow inside and the air ducts are connected with the air pipe of the air compressor through a reducing joint.
According to the construction position of the foundation pit 9, the side wall is excavated, and the accurate positions of each clay layer 1 and the sand soil layer 2 are determined by exploration and positioning, and the sand soil layer 2 contain an aquifer.
The drilling rig with simultaneous casing, water pump, air compressor and other equipment are put in place, and installed and debugged. Measuring and arranging positioning holes are carried out at the position of little above the junction of the clay layers 1 and the sand soil layers 2 for accurately inserting the horizontal wells 3 in the future. Soil nails 4 or prestressed anchor cables 5 have been arranged in the clay layer 1 on the side wall of the foundation pit 9. The insertion position of the horizontal wells 3 is longitudinally aligned with the soil nails 4 or prestressed anchor cables 5. The depth of the horizontal wells 3 is the same as the length of the soil nails 4 or prestressed anchor cables 5.
The horizontal wells 3 include the drain pipes 6 and the air ducts 7. The drain pipes are made of PVC hard plastic, and the water inlet holes on the drain pipes are arranged in a pentagon shape. The outer wall and two ends of the drain pipes are wrapped with double-layer 60-mesh mesh. The drain pipes are filled with stones or stone chips to ensure that only water instead of sand and gravel comes out. The air ducts are also made of PVC hard plastic, and only 1/10 of a total length of a bottom end is provided with 2-3 rows of exhaust holes which are distributed circumferentially. The outer wall and two ends of the air ducts are wrapped with double-layer dense mesh of 60 mesh, and the air duct is hollow inside. The water drain pipes 6 and the air ducts 7 are processed as described above and pass the inspection, and enter the site for further construction.
The drilling rig with simultaneous casing performs horizontal drilling on the positioning holes, after the drilling rig reaches the designed depth, the inner pipe is extracted, the drain pipes 6 and the air ducts 7 are inserted, and then the casing is extracted. The drain pipes 6 and the air ducts 7 are located at the same elevation, and each air duct 7 is located between two drain pipes 6 to ensure that the air ducts 7 are in the aquifer, and the air ducts 7 are connected with the air pipe of the air compressor through a reducing joint.
The air ducts are connected with the air pipe of the air compressor through the reducing joint, and the aquifer is inflated and pressurized, so that the water in the aquifer strata can be gathered into the drain pipes 6 more quickly, and the water is discharged by the drain pipes 6 into the water collecting ditch, gathered in the water collecting well and pumped out by the water pump, thus ensuring the dry operation in the base tank. Meanwhile, because the pressurization of air can counteract part of the settlement deformation, it is beneficial to control the settlement deformation of the surrounding environment.
The advantages are as follows:
(1) The method is precise and targeted: the positions of horizontal long wells and pressurized air wells are accurately determined through site excavation of the side wall of foundation pit combined with geological survey report, so that good accuracy of drilling horizontal wells for “inexhaustible pumping” strata is ensured.
(2) The method is quick-acting: by making full use of the advantage that the horizontal permeability coefficient is far greater than the vertical permeability coefficient, the water in the aquifer strata is quickly discharged, and the “inexhaustible pumping strata” is turned into dewatering strata.
(3) The bearing capacity of the soil nail anchor is guaranteed. As the horizontal long well is as long as the upper row of soil nails or anchor rods, the water within the whole length of the soil nail or anchor rod is ensured to be discharged, and the side friction resistance is not affected, so that the bearing capacity of the soil nail or anchor rod is not affected.
(4) The pressurized air wells have dual functions: alleviating the influence of holes drilling and water-discharging on the settlement deformation of the surrounding environment of the foundation pit in addition to pressurizing the water in the aquifer to flow to the horizontal long well as soon as possible.
The above description is only illustrative, not restrictive. It should be understood by those skilled in the field that many modifications, changes or equivalents can be made without departing from the spirit and scope of the claims, but they will all fall within the scope of protection of the present application.
Number | Date | Country | Kind |
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202110657097.3 | Jun 2021 | CN | national |
Number | Name | Date | Kind |
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20180230665 | Niroumand | Aug 2018 | A1 |
Number | Date | Country |
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104727318 | Jun 2015 | CN |
104790419 | Jul 2015 | CN |
207919564 | Sep 2018 | CN |
21411667 | Sep 2021 | CN |
Number | Date | Country | |
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20220396927 A1 | Dec 2022 | US |