RU2758237C1 - Method for construction of horizontal water intake structure of combined design - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: invention relates to hydraulic engineering construction, more precisely to water intake structures, and can be used to take water from underground sources with shallow groundwater deposits in the coastal zones of small rivers. In the method for constructing a horizontal water intake structure of a combined design, including a water intake tray 1 with drainage devices made of gabion mattresses 3 and additional drainage lines, in gabion mattresses 3 arranged in rows on top of the water intake tray, the draining aggregate is made of several layers of geomats and two threads of perforated pipes, which are laid in layers and wrapped in a geogrid giving a prismatic shape to the mattress, and as additional lines, located on both sides perpendicular to the tray and with a slope to it at a distance from each other, tubular drains 8 are arranged, which are assembled of perforated pipes 9 with stiffeners 10 and geomats wrapped around pipes 9 in two or three layers. Tubular drains 8 with stiffeners 10 and layers of geomats wrapped around in a mesh shell enter the water intake tray 1 on top of its walls. The method for constructing a horizontal water intake structure of a combined design can be most effectively used for reclamation purposes for water extraction from floodplain and coastal aquifers of small rivers with a depth of the groundwater level up to 5 m, hydraulically connected with open water flows of rivers. It is recommended to use the method for water intake into irrigation systems of coastal lands of foothill zones.

EFFECT: invention provides a reduction in the labor intensity of construction and an increase in work efficiency.

1 cl, 6 dwg

Description

The invention relates to hydraulic engineering, more precisely to water intake facilities, and can be used for the intake of water from underground sources with shallow groundwater in the coastal zones of small rivers.

Known horizontal tubular water intake [1], containing a water intake pipe with drainage holes (round or slotted) and filtering sprinkle in two or three layers of sand and gravel material, and a catchment well. The main disadvantages of this technical solution are: low efficiency of work, the complexity of the manufacture of filtering dust and the need for a large amount of stone material.

A relatively close technical solution is a method of erecting a horizontal underground water intake of a combined design [2], containing a water intake chute with drainage devices and additional drainage lines made of gabion mattresses made of lightweight fascia, drainage pipes and geonets. The main disadvantage of this technical solution is the increased complexity of manufacturing the structure, which requires the collection of a large amount of natural material - ripe reeds (from which the fascines are made), which is not enough everywhere.

The purpose of the invention is to reduce the labor intensity of construction and increase the efficiency of work.

This goal is achieved by the fact that in the method of erecting a horizontal water intake structure of a combined structure, including a water intake tray with drainage devices made of gabion mattresses and additional drainage lines, in gabion mattresses arranged in rows on top of the water intake tray, the drainage filler is made of several layers of geomat and two perforated threads pipes, which are laid in layers and wrapped in a geogrid with a prismatic shape of the mattress, and as additional lines located on both sides perpendicular to the tray and with a slope to it at a certain distance from each other, arrange tubular drains, which are collected from perforated pipes with stiffening ribs and geomat wrapped around the pipes in two or three layers, while tubular drains with stiffening ribs and geomat layers wrapped around in a mesh shell enter the water intake chute on top of its walls.

FIG. 1. shows a longitudinal section along the axis of the intake chute of a horizontal intake structure; in fig. 2 - plan of the main part of the structure; in fig. 3 - cross-section of the catchment flume along the line of the longitudinal axes of additional lines from the tubular trainers; in fig. 4 - gabion mattress; in fig. 5 - drainage pipe with stiffening rings (ribs); in fig. 6 - geomat.

The horizontal water intake structure consists of a water intake chute 1 with a metal grate 2 arranged on top of the chute, gabion mattresses 3 with drainage devices made of geomat 4 and perforated pipes 5, laid in layers and wrapped in a gabion net. On top of the gabion mattresses 3, a layer of crushed stone is provided 6. On both sides perpendicular to the tray 1 at a certain distance from each other, additional drainage lines 7 of tubular drainages 8 are arranged, consisting of perforated pipes 9 with stiffening ribs 10 and geomat 11, wrapped in two or three the layer around the pipes between the stiffeners 10, and the mesh shell of gabion nets 12. At the points of contact of the end parts of each line 7 of the tubular drains 8 through the top of the tray, short channels 13 are provided through the top of the tray, entering with a slope into the inside of the tray 1. At the end of the receiving tray 1 there is arranged drainage well 14, equipped with a water intake (suction) pipeline 15.

The method of erecting a horizontal water intake structure of a combined structure is carried out and works as follows.

First, according to the size of gabion mattresses 3, the required number of pieces of geomat 4, perforated pipes 5 and gabion nets are cut. Then, perforated pipes 9 and gabion nets 12 are cut according to the size of drainage pipes 8, and geomats 11 are cut taking into account the arrangement of stiffeners 10. In this case, drainage perforated pipes 9 are made of polymeric materials, and stiffeners 10 are made of dense strip rubber. Further, in the aquifer of the soil, with a shallow depth of the groundwater level, they develop the main trench for the water intake tray 1 and auxiliary trenches for additional drainage lines 7 from drainage pipes 8, as well as a foundation pit for the catchment well 14. After that, the foundations of the tray 1 and the bottom are planned. pit for a catchment well 14, In this case, the slope of the main trench under the tray 1 towards the well 14, providing an effective intake and removal of filtered water, is 0.01 ... 0.015. And the slopes of the trenches of the additional drainage lines 7 towards the chute 1 are 0.01 ... 0.025. Then, at the same time, a drainage well 14 and a tray 1 are built from concrete, reinforced concrete or other safe material. The water intake chute 1 can be made of reinforced concrete, metal or polymer material with a segmented or parabolic section. After gaining the necessary strength of the materials of well 14 and tray 1, on top of tray 1, reinforcement grids 2 (A1 about 14-16 mm) with cells of 10 × 10 cm or 10 × 20 cm are arranged.Then, the trench around tray 1 is covered with local soil to the top, and on top of the tray 1, perpendicular to it at the entry points of additional lines 7, short channels are arranged with the entrance to the inside of the tray 1. After that, in the designated places of additional lines 7, trenches are planned, a mesh shell 12 (gabion mesh) is laid on the bottom of the trench, on top of which perforated pipes 9 with stiffening rings 10 put on (at a certain distance from each other), between which pieces of geomat 11 are tightly wound 11. Around drainage pipes 9 with geomats 11 and stiffening rings 10 tightly pull the mesh shell 12 around the circumference and attach to the rings (ribs) rigidity 10. In this case, the end parts of the drainage pipes 9 pass over the top of the tray 1 into short channels 13 entering the tray 1. Then over the tray 1 along the entire length e on top of the reinforcement gratings 2, longitudinal rows of gabion mattresses 3 are laid, so that the perforated pipes 5 (adjacent mattresses), respectively, enter each other along the slope and water flow line. On top of mattresses 3, a layer of crushed stone is laid, 10-15 cm thick to prevent silting (silt particles) of gabion mattresses. Gabion mattresses 3 can have the following dimensions: 30 × 20 × 120 cm, 35 × 25 × 150 cm, 40 × 30 × 200 cm and others. Perforated pipes 5 for gabion mattresses have a diameter of 3-5 cm, and drainage pipes 9 for additional lines - 16-20 cm. Geomat SMT 400, 3-5 mm thick, is most suitable as a geomat for mattresses 3 and drainage pipes 8. In the catchment well 14, a suction pipeline 15 is mounted so that the inlet part of the branch pipe is at least 30 cm above the bottom.At the end, the upper parts of the trenches (not filled parts) above the tray 1 and additional lines 7 are filled with local (previously excavated) soil. After the completion of construction, the area around the water intake structure is planned and equipped so that surface water runoff does not penetrate either into the trenches or into the well 14.

The horizontal water intake structure of the combined design ensures the intake of groundwater with high efficiency, it works in this way. In a free-flowing aquifer, due to the fact that the groundwater level is higher, under the action of gravitational forces, water flows by gravity to gabion mattresses 3 and drainage pipes 8 with good water intake (drainage) properties. In gabion mattresses 3, where water penetrates through the water inlet openings into the drainage perforated pipes 5, providing (due to the slope) the transportation and ingress of water into the water intake chute 1 and into the drainage well 9. In the drainage pipes 8 additional lines 7, due to good water permeability geomat 11, groundwater freely flows into pipes 9, which are further transported (due to the high slope) to the channel 1 and through it into the well 14. Geomats 4 and 11, used, respectively, in gabion mattresses 3 and drainage pipes 8 are good a drainage material that retains its properties for many years up to 25 years or more. Polymeric materials from which geomats are made are environmentally friendly materials that do not interfere with the natural environment. A layer of crushed stone 6, provided on top of the gabion mattresses 3, prevents possible silting and clogging of them with silty and fine sand particles. The most effective is the water intake chute 1 with a segmented or parabolic section. To ensure the efficient operation of the structure from the catchment well, it is necessary to ensure continuous water intake through the suction pipeline 10 of a stationary pumping station or a single powerful vertical pump.

The use of drainage polymer (perforated) pipes, geomat in the manufacture of mattresses 3 and drainage pipes 8 provide them with flexibility and plasticity, good water intake and filtering properties. They are environmentally friendly, odorless, do not emit harmful and toxic substances, are resistant to liquid hydrocarbons, solar ultraviolet light. These geosynthetics products are highly durable and have a service life of over 25 years. Structures made of them work stably at temperatures ranging from -20 degrees to +40 degrees.

The method of erecting a horizontal water intake structure of a combined structure can most effectively be used for reclamation purposes for the extraction of water from floodplain and coastal aquifers of small rivers with a depth of groundwater level up to 5 m, hydraulically connected with open water flows of rivers. It is recommended to use it for water intake into irrigation systems of coastal lands of foothill zones.

Sourse of information:

1. Abramov I.N. Water supply. - M .: 1982 - p. 191-194.

2. RF patent No. 2528836 IPC E02B 11/00. A method of erecting an underground horizontal water intake of a combined structure / Dzhamaludinov M.M., Kurbanov C.O., Publ .: 20.09.2014 Byul. No. 26.

Claims (1)

A method of erecting a horizontal water intake structure of a combined structure, including a water intake chute with drainage devices made of gabion mattresses and additional drainage lines, characterized in that in gabion mattresses located in rows on top of the water intake chute, the drainage filler is made of several layers of geomat and two strings of perforated pipes, which laid in layers and wrapped in a geogrid with a prismatic shape of the mattress, and as additional lines located on both sides perpendicular to the tray and with a slope to it at a distance from each other, arrange tubular drains, which are collected from perforated pipes with stiffeners and geomat , wrapped around pipes in two or three layers, while tubular drains with stiffeners and layers of geomat, wrapped around in a mesh shell, enter the water intake chute on top of its walls.

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