SU1002474A1 - Evacuated well for vertical drainage - Google Patents

Description

(54; VACUUM VERTICAL WELLS VERTICAL The invention relates to groundwater abstraction and can be used in setting up vertical wells other than irrigated and drained lands on building plots or areas undergoing flooding. A well-known vertical drainage well structure, including a head conductor, column, well tower, well column, well tower, well column. a filter column and a submersible I pump unit suspended on a column of lifting pipes. The well was drilled in a rotary manner with backwash. After the descent, the casing and filter pipe string is drained with a sand-gravel mixture along the aatrub-shaped annular gap from the ground ––––––––––––––––– –––––––––––––––––––––––––––––––– for the introduction of the descent of the column

Claims (1)

DRAINAGE pipes above the well, you must install a tower or use a truck crane. During operation, the well continuously lowers the flow rate. One of the reasons for the decrease in flow rate is the removal of water from the aquifer and filter sand and the sedimentation of the filter column by it. The settling of sand in the lower part of the filter column is due to insufficient water velocity. During interruptions in the operation of the well, fine sand settled in its filter column is cemented by the chemical compounds present and compacted. For the restoration of the tproizvoditel-. In most cases, the well periodically must be cleaned using an airlift or water jet installation. At the same time, costs reach 2O-30% of the initial cost of the well. Also known is the design of an evacuated well, which includes a cap with glands, a casing string, a filter string, a submersible pump, a 3100 unit equipped with a cable and a conduit, and a dividing well at a height of two hours — pressurized and sucked — located under vacuum C 2 By Compared to the above, this structure has a smaller metalcocib. Evacuation allows lowering the water level behind the borehole wall to a greater degree and thus increasing the water inflow to it. It is possible to carry out a filter column; shorter length. However, due to the sharp and tough impact on the aquifer and filter dusting when the pumping unit is turned on, the sandstone in the filter column of the vacuuming well is more and longer than the filter column of a conventional well. Like conventional wells, the evacuated wells are gradually silted up and also come clean. The most suitable for the proposed design is a vacuum well, including a head with a gland, a casing string and a filter column with a sump, interconnected by means of a conical adapter, a submersible1 pumping unit with an overhead electric motor located in a column of lifting pipes and an equipped cable rope, and two seals, one: out of which is located between the pump. a unit and a column of lifting pipes, and another between the lifting and casing strings of pipes Z. In this well design, a seal located between the pumping unit and the column of lifting pipes is a two-hour hole, pressure head and suction hole However, in general, the structure this well is not rational, since it is metal-consuming due to the presence of a column of water-lifting pipes. The use of a column of lifting pipes forces to increase the diameter of the casing. During operation, the well is silted up. The aim of the invention is to prevent silting by scouring the sediment in a filtered column and simplifying the well design. This goal is achieved by the fact that an evacuated vertical drainage borehole, which includes an epiploon head, a casing string, a filter string and a sump, connected to each other by means of a conical passage, a nickname, a submersible pumping unit equipped with a cable duct, and a seal, The installation of the well and the suction part, equipped with a flushing pipe, mounted on the outside of the filter column, reporting the pressure part of the well and the sump, the submersible pump unit is installed on the nical adapter and seal that serves between the submersible pump unit and the conical adapter. The drawing shows schematically the proposed vertical-drainage well. The evacuated vertical drainage well of the proposed design includes a tip - I with a gland 2, a string of casing 3 and a filter column 4 with a sump, connected by means of a conical junction 5, a submersible pumping unit 6 with an upper motor arrangement, equipped with a cable channel 7 , seal 8, dividing the cavity of the well into two parts - pressure and suction, and wash pipe 9, mounted on the outside of the filter column 4, parallel to it. Upper end of the wash pipe of the gully 9 is connected to the casing string ipy6 3 above the seal 8, and the lower one to the filter column 4 above its support spot 10. The upper end of the 1 flush pipe 9 can also be connected to the top of the I well. when turning on the pump unit 6 of the work, the flushing pipe 9 can also be used as a piezometer. The construction of an evacuated vertical drainage well of the proposed design is carried out in a rotational way with backwash or percussion special. In this case, the aquifer is opened to its full capacity. Upon reaching the design depth, the installation and descent of the filter column 4 begin. The lower part is 0 m in length and is made of non-perforated coarse to which the lower end of the wash line 9, the centering lamp 11 and the support point Y are attached. The wash line 9 is assembled parallel to the filter column 4 and attached to it. In the south it is made of corrosive-brute rough, for example, popiegilen or galvanized steel, with an inner diameter of not more than 15 mm. After the installation of the filter column 4 is completed, the casing 3 is assembled and lowered. At the same time, the joints of the pipes are waterproof. A column of 5 graded pipes 3 with a filter column 4 is connected by means of a conical adapter 5. To the casing 3, above, the top of the water supply pipe 9 is attached to the casing 3. Then, the filter column 4 and the casing 3 lowered into the well are sandwiched. gravel mix and using airlift, construction pumping is carried out to form a gravel filter. After that, using a winch on cable 7, the submersible pump unit 6 is lowered into the well and mounted on a conical adapter. The mounting element 8, placed at the end of the pump casing, is pressed by the mass of the pumping arperaift 6 and hydrostatic pressure to the surface of the conical adapter 5 and reliably divides the well in height into two parts, at the top of which a high pressure is created during the operation of the pump 6 and it serves as a water lifting a vacuum in the bottom column and a low vacuum in the bottom. The vertical drainage well works as follows. When the pumping unit 6 is put into operation, a vacuum is created in the filter column 4 of the well, resulting in aquifer starts pos blunt water with which vynosits and fine sand. The flow of water passing through the pump 6 transports it through the casing string 3 and brings it to the surface. Part of the sand entering the filter columns 4 through its lower part could settle, but this is not due to its continuous flow of water flowing into the lower part of the cavity of the filter column 4 from the flushing pipe 9. The diameter of the water inlet, through which water flows in the industrial pipeline 9, designate 10-15 mm, toby the water flow through it is more than 0, 3-0, 5 l / s. The implementation of the proposed vertical-well pumped well design provides cost savings, at present, for cleaning sand pits. By approximate calculations, the economic effect is $ 10,000 per year per well. Claims of the Invention A vertical drainage well, including an overhead with a stuffing box, a casing string, a filter string and a sump connected between each other by means of a conical adapter, a submersible pumping unit equipped with a cable-cable, and a seal dividing the well into the pressure and suction parts, characterized in that, in order to prevent silting by scouring in the filter column and simplifying the well design, it is equipped with a flushing, mounted outside They communicate the pressure part of the well and the sump, the submersible pump unit is installed on the conical adapter, and the seal is placed between the submersible pump unit and the conical adapter. Sources of information taken into account in the examination 1, Appendix to the instruction on the design of building systems, part 1 of the Drainage on irrigated lands. VSN-11-8-74. An album of horizontal, vertical and combined drainage structures. M., Ministry of Water Management of the USSR 1976. 2, USSR Copyright Certificate N 79412O, Cl. E oz. B 3 / O6 1981. 3, USSR Copyright Certificate, No. 408054, cl. E 04 D 13/10 1973.