RU2518456C2 - Method to erect underflow filtering water intake of combined design - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydraulic engineering, namely, to water intake facilities erected for water intake in areas of rivers with complicated hydrological conditions. A pit is mined for a water collecting gallery 1, as well as a trench for a tubular water intake 7. The water collecting gallery 1 is erected from solid concrete or reinforced concrete, and then the tubular water intake 7 is erected. On top of the water collecting gallery 1 they install a filtering water intake comprising a metal grid 2. On top of the metal grid 2 they lay flexible mats 2 in two rows, made of light fascines wrapped into a geonet. At the same time the first row 4 of mats 3 is laid above the metal grid 2 in direction of the longitudinal axis of the gallery 1, and the second row 5 - across the gallery 1 and in direction of the river flow, and also with the inclination that is more than the inclination of the river bed. The additional tubular water intake 7 is arranged in front of the water collecting gallery 1 under the river bed at one side and in direction of the river flow. The tubular water intake 7 is made of perforated pipes 8 and flexible mats 3 laid around them. The mouth part of the tubular water intake 7 with inclination enters the gallery 1 at the level of water level.

EFFECT: invention provides for higher reliability of operation of an underflow water intake under conditions of mountain, foothill and plain areas of rivers.

2 cl, 5 dwg

Description

The invention relates to hydraulic engineering, and in particular, to water intake structures constructed for water intake in river sections with complex hydrological conditions.

Known filtering bottom channel of the water inlet with vortex chambers [1], containing water inlet openings, filter cartridges and gravity pipes. The main disadvantages of this technical solution are the design complexity and low work efficiency.

Sub-channel water inlets are also known, which are given in the same source [1]. Structurally, such water receivers are erected in the form of drains, galleries, radiation intake, etc. (Recommended for water intake from periodically freezing streams, or for water intake in mountainous areas of rivers with a periodic lack of surface runoff). The main disadvantages of these water inlets are low efficiency and reliability, as well as the difficulty of their use in lowland and foothill sections of rivers.

The purpose of the invention is to increase the efficiency and reliability of the under-water intake in mountainous, foothill and lowland sections of rivers.

This goal is achieved by the fact that in the method of constructing a sub-filtering water intake, including a drainage gallery, a filter intake is arranged on top of the drainage gallery, made of a metal grate and laid on top of it in two dense rows of filtering flexible mattresses, which are made of light fascia wrapped in a geogrid, the first row of mattresses is laid along the longitudinal axis of the gallery, and the second row is across the gallery and in the direction of the channel flow, as well as with a slope greater than the slope of the river bed . In front of the water intake gallery, under the river channel, on one side and in the direction of the flow, an additional tubular water intake is arranged, which is made of perforated pipes and similar flexible mattresses laid around them, while the mouth of the tubular water intake with a slope enters the drainage gallery at the level of the water edge.

Figure 1 shows a section of the structure along the longitudinal axis of the drainage gallery; figure 2 is a plot of water intake in the plan; figure 3 is a cross section of the structure along the axis of the tubular water intake; figure 4 - flexible mattress of light fascin; figure 5 is a fragment of a perforated pipe with stiffeners.

The under-water filtering intake consists of a drainage gallery 1 and a water intake made of a metal grate 2 and flexible mattresses 3, arranged in two rows on top of the grate. In the first row 4, flexible mattresses 3 are tightly laid along the entire width of the gallery and in the direction of its longitudinal axis, and the second row 5 is across the gallery and in the direction of the surface water flow. In this case, the second row of 5 mattresses is laid with a slope and a larger length that overlaps the width of the drainage gallery 1 on both sides. A guide threshold 6 is provided in the upper pool in front of the water-intake mattresses 3. At a depth below threshold 6, a tubular water intake 7 is arranged, the end part of which with a slope enters the catchment gallery 1 at the level of the water edge. The tubular water intake consists of perforated pipes 8, flexible mattresses 3 and rigid ribs 9. At the end of the drainage gallery a discharge channel 10 is arranged.

A method of erecting a sub-filtering water intake of combined design is carried out and works as follows.

First, the place of construction of the water intake is selected and the main elements of the structure are linked. The necessary volume of dry reeds is also prepared in advance, light fascines are made from it and flexible mattresses 3 are made of them in the required quantity. After that, work is carried out to divert the river from the construction site. Then, a foundation pit is developed for the drainage gallery 1 and a trench for the tubular water intake 7, and their earthen bases are planned. First, a drainage gallery 1 is constructed of cast concrete or reinforced concrete, and then a tubular water intake 7 is immediately built. To do this, first (pre-prepared) perforated pipes 8 with stiffening ribs 9 are laid around which flexible mattresses 3 are laid in longitudinal and dense rows around level 3 rigid ribs 9. A gabion net is stretched around pipes 8 with flexible mattresses 3 along their entire length to the drainage gallery 1. Then, a water inlet from the metal grill 2 and are flexible above the drainage gallery 3 mattresses, stacked in two rows. The first row of 4 mattresses 3 is laid over the grating 2 in the direction of the longitudinal axis, and the second row 5 is across the gallery and in the direction of the water flow, and with a slope of i = 0.05 .... 0.1, greater than the slope of the river bed. At the same time, the length of the mattresses 3 of the second row 5 should overlap the width of the gallery on both sides. Further, the foundation pit around the gallery 1 is filled with local soil and the trench with the tubular water intake 7. The main loads on the tubular water intake from the overlying soil are perceived by stiffeners 9 through a gabion net wrapped around the water intake 7. A guide threshold 6 is arranged on top of the tubular water intake and in front of the surface water intake of the gallery 1 the purpose of deviation of large (entrained) sediments towards the main channel of the river. And at the end, a discharge channel 10 is constructed with tight coupling along the marks with the catchment gallery 1 so that water from gallery 1 by gravity (without formation of backwater) enters the channel.

Works sub-filtering water intake combined design as follows. During the flood period, the main water flow freely flows from the top of the gallery’s water intake, and part of the water, under the influence of pressure, passes through the flexible mattresses of the upper 5 and lower 4 rows to the drainage gallery 1, since the light fascines from the reeds from which the flexible mattresses are made have good drainage properties . At the same time, water is also purified from suspended particles, flexible mattresses 3 of the water intake work both as drains and filters. Due to the high slope of the upper row of 5 mattress pouches, the sediment that enters there with a stream of water, most do not linger, is carried away and washed off with water, only a small portion of sediment penetrates the furrows of flexible mattresses (mainly suspended sediment). After a certain time of the flood period of the river, a turbid stream of water can lead to blockage (clogging) with suspended sediments of light fascines of the upper row of 5 mattresses 3. As a result, the efficiency of the water intake (throughput) may decrease by half or more. Therefore, after 10-15 days of operation of the water intake in a muddy stream of water, it is necessary to replace the top row of 5 mattresses with new mattresses. Then, the removed mattresses 3 can be washed and cleaned of sediment under the influence of a pressure stream of a water stream so that they can be reused. To ensure the efficient operation of the water intake, there must be a sufficient number of flexible mattresses 3 for their repeated use. The dry and ripened reeds of which light fascines and mattresses are made, is a sufficiently durable and reliable material that works in aqueous conditions up to 12-15 years or more without decomposition. In this connection, flexible mattresses 3 can be used hundreds of times or more, replacing them in batches with new cleaned ones. As for the tubular water intake, it is relatively deep underground, where only groundwater enters. Therefore, it will work without replacing filter flexible mattresses for 12 years or more. After 10-12 years, it will be necessary to replace the fully filtering mattresses 3 in the tubular water intake 7. And in the case of complete freezing of the river, the tubular water intake allows you to take the minimum amount of water from under the groundwater. The main purpose of the tubular water intake is to ensure the flow of water into the drainage gallery 1 in the low-water (autumn-winter) period. The required minimum flow rate of the tubular water intake 7 can be adjusted by the size and design of the perforated pipe 8 (length, diameter and perforation area).

The under-water intake of the combined construction constructed by the proposed method can be effectively used both on mountainous, piedmont, and plain sections of small rivers with difficult hydrological and climatic conditions. The presence of two water inlets at the proposed intake, surface and underground (tubular), increases its reliability and allows it to be used for drinking water supply to small settlements, individual enterprises and institutions, private households, and also as a backup water intake in case of emergency in large populated areas.

The source of information

1. Designer reference. Waterworks. / Edited by prof. V.P. Nedrigi. - M.: Stroyizdat, 1983.- p. 434-435.

Claims (2)

1. A method of erecting a sub-filtering water intake, including a drainage gallery, characterized in that a filtering intake is made on top of the drainage gallery, made of a metal grate and laid on top of it in two dense rows of filtering flexible mattresses, which are made of light fascia wrapped in a geogrid, this, the first row of mattresses is laid along the longitudinal axis of the gallery, and the second row is across the gallery and in the direction of the channel flow, as well as with a slope greater than the slope of the river bed. 2. The method of claim 1, characterized in that in front of the water reception gallery under the river channel, on one side and in the direction of the flow, an additional tubular water intake is arranged, which is made of perforated pipes and similar flexible mattresses laid around them, while the wellhead part of the tubular water intake is slope enters the catchment gallery at the level of the water edge.

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