RU2668092C1 - Light weight flood relief water disposal unit for ground water dam - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydraulic engineering construction and can be used as a relief water disposal unit in the coastal part of the body of a ground retaining structure for passing floods of rare occurrence, if there is a main spillway in the structure of the water disposal unit. Light weight flood relief water disposal unit for ground water dam includes a ground eroded insert, a protective coating of geosynthetic material with perforation 9 filled with fine gravel 10 and porous concrete 11, geomembrane 12 with ribs of stiffness of a rectangular profile, which is fixed by metal anchors with polyethylene liner 14. Height of the eroded soil insert is determined by the following formula: H_ins=∇HWL – ∇PWL – a, where H_ins – height of the washable insert, m; ∇HWL – a mark of the highest water level, m; ∇PWL – a mark of a permanent water level, m; a – exceeding the ∇HWL mark above the top of the crest of the washable insert, m.

EFFECT: use of this technical solution will improve the reliability of the operation of the relief water disposal unit and will ensure the safe passage of ultra-high water flow in the period of floods and floods, and also to reduce the cost of the structure in comparison with concrete hydraulic structures.

3 cl, 4 dwg

Description

The invention relates to hydraulic engineering and can be used as an auxiliary spillway in the coastal part of the body of an underground retaining structure to allow floods of rare occurrence, if the main spillway is part of the waterworks.

Known reserve spillway of an underground retaining structure (patent RU 2256742, publ. 12/20/1995), including the abutments, located between the abutments of the soil eroded insert, made in the form of a dam with a ridge mark below the mark of the crest of the soil retaining structure, and a spout equipped with dampers. The reserve spillway of an underground retaining structure is designed to reduce its material consumption in comparison with concrete spillways and can be used as an auxiliary spillway to pass floods of rare frequency.

The disadvantage of this design is that erosion of the soil insert will occur over a long period of time, since reinforced concrete slabs arranged on the upper slope of the erosion insert will prevent soil erosion, which, in turn, can lead to premature overflow of water through the dam crest. Also, after erosion of the soil insert, the flood water will be passed to the top of the overflow wall, which is below the normal retaining water level, which will entail the discharge of the useful volume of water, which is intended for water users.

Known reserve spillway of soil dam (patent RU 2498007, publ. 10.11.2013), designed to pass emergency floods, made in the crest of the dam, where an artificial opening of trapezoidal section is arranged, with a depth of up to the mark of the calculated level of overflow of water, in the bed of which a protective coating of polymeric material in the form of a geomembrane fixed from the upstream side and on the edges of the slopes of the artificial pro-hole by weights, and on the lower slope of the dam, along the width of the artificial hole, a water-conducting otok passing in stilling spillway portion, the bottom of which is made of double webs geomembrane mismatched with openings intended for free-drainage of seepage welded to the protective coating artificial closure channel, and the walls and the water flow energy absorbers are formed of a flexible shells filled with sand.

The disadvantage of this technical solution is that when passing floods of infrequent frequency, damage to the protective coating from the geomembrane due to the hydrodynamic forces of the water stream and its insufficient fastening to the base of the spillway of the backup spillway are possible. Another disadvantage is the device of this design in the crest of an earthen dam, which, in turn, can affect the safety of the entire water system as a whole if the integrity of the protective coating from the geomembrane is compromised.

The closest technical solution is the backup spillway of an underground retaining structure (options) (patent RU 2573328, publ. 20.01.16), including an eroded soil insert made in the form of a trapezoidal section prism located in the water supply part of the backup spillway, where along the entire perimeter of the bed, as well as on the upper and lower slopes, a protective coating of polymer geomembrane is arranged, which is filled during the construction period with soil similar to the body of the dam.

The disadvantage of the above invention is that the protective coating of the fast-flowing part of the backup spillway is made of a geomembrane, where when the flood passes, significant hydrodynamic forces of the water flow arise, which can lead to rupture of individual panels of the geomembrane coating between them at their junctions.

The purpose of the invention is the device in the coastal part of the soil dam light flood flood spillway with eroded soil insert for safe passage of water flow of rare frequency.

The lightweight flood reserve spillway in the coastal part of the body of the soil dam is designed to prevent dam destruction in the event of the passage of ultra-high (calibration) water flows.

EFFECT: safe passage of a flood of rare occurrence through a structure due to the device of a reliable protective coating over the entire area of the overflow channel of a lightened flood reserve spillway.

, где Н_вст - высота размываемой вставки, м;

- отметка форсированного подпорного уровня воды, м;

- отметка нормального подпорного уровня воды, м; а - превышение отметки

над верхом гребня размываемой вставки, м.The technical result is achieved by performing a lightweight backup spillway at a soil dam, including a washable soil insert, which is a trapezoidal section prism located in the water supply part of the backup spillway, where a protective coating is made from a geoset geosynthetic along the entire perimeter of the bed, as well as on the upper and lower slopes. perforated material filled with fine gravel and porous concrete, on top of which a polymer geomembrane is laid from the edge and rigidity of the rectangular profile, located between the drain threshold of the spillway and eroding soil insert. In this case, the polymer geomembrane is fixed with metal anchors with a polyethylene gasket and its subsequent welding to the polymer sheet of the protective coating. The height of the eroded soil insert is determined by the following formula:

where H _vst - the height of the eroded insert, m;

- mark forced water level, m;

- mark of normal retaining water level, m; a - excess mark

above the top of the ridge of the eroded insert, m.

The invention is illustrated by the figures: FIG. 1 - Scheme of lightweight flood reserve spillway at a soil dam. Lengthwise cut; FIG. 2 - Scheme of the spillway of the lightweight flood reserve spillway. Cross section AA; FIG. 3 - Scheme of the high-speed part of the lightweight flood reserve spillway. Cross section BB; FIG. 4 - Scheme of a protective coating. Node 1.

The numbers in the drawings indicate: 1 - soil washable insert; 2 - a protective coating; 3 - soil dam; 4 - spillway threshold; 5 - spillway of the reserve spillway; 6 - transient part of the backup spillway; 7 - concrete ledge; 8 - tubular drainage; 9 - geoset geosynthetic material with perforation; 10 - fine-grained crushed stone; 11 - porous concrete; 12 - polymer geomembrane with stiffeners; 13 - the base of the protective coating of loam; 14 - metal anchor with a polyethylene gasket; 15 - castle; 16 - outlet channel.

Lightweight flood reserve spillway with a soil eroded insert 1, which is a trapezoidal section prism, located in the water supply part of the reserve spillway, where protective coating 2 is arranged along the entire perimeter of the bed, as well as on the upper and lower slopes, 3 The spillway is located in the coastal part of the body of the soil dam 3 at the level of the normal retaining level (NPU). It has a spillway threshold 4, which includes a spillway 5 and a quick-flowing 6 part of a backup spillway structure, as well as a concrete ledge 7. The upper and lower slopes of the spillway threshold are made similar to slopes of a soil dam.

The spillway and quick-flow parts of the spillway are in the form of a trapezoidal cross-section tray. Under the high-speed part of the structure, a tubular drainage 8 is arranged to drain the filtration water. Over the entire area of the spillway of the spillway and partly on the uphill slope of the spillway threshold, sheets of protective coating 2 are made of geoset geosynthetic material with perforation 9, which are fastened to each other by welding. They are filled with fine-grained crushed stone 10 and covered with a thin layer of porous concrete 11. On top of them, as well as on the remaining part of the upper slope of the overflow sill, they are laid the polymeric geomembrane panels with stiffeners 12, which are connected by welding and fastened to the base of the protective coating from loam 13 metal anchors with polyethylene gasket 14 and its subsequent welding to the polymer sheet of the protective coating. A geomembrane at the base of the upper slope of the spillway threshold of the spillway is fixed with a lock 15. The bottom slope of the spillway threshold ends with a ledge 7, which is located in the body of the compacted loam and is made of concrete. The discharge of floods of rare repeatability is carried out in the discharge channel 16.

Lightweight flood reserve spillway of an earth dam is as follows (Fig. 1-4).

In the coastal part of the dam body, a spillway threshold is formed. Then prepare the base for a protective coating in the bed of the spillway and quick-flowing parts of the backup spillway, which is made from loam compacted by a mechanized method. Next, a geoset geosynthetic material with perforation is laid in the bed, which is covered with fine-grained gravel and covered with a thin layer of porous concrete. After that, a geomembrane with stiffeners is laid on top, which is attached to the base of the protective coating using metal anchors with a polyethylene gasket. To avoid filtering at the anchor attachment points, polyethylene gaskets are fixed by extrusion welding to the polymer sheet of the protective coating (polymer geomembrane). To drain filtration water, a tubular drainage is provided under the rapid current. Behind the speed, a concrete ledge is performed. If there is a roadway on a dirt dam after the construction of a backup spillway, the construction of a collapsible metal bridge is envisaged.

The height of the eroded insert is determined on the basis that the mark of the spillway threshold of the backup spillway is set at the NPU mark, and the insert crest is taken below the FPU mark by 0.1-0.3 m. This location of the insert crest mark is characterized by the fact that it is necessary to create an additional the pressure of the iridescent water flow, so that an intensive erosion of the soil of the insert body begins and there is no overflow of flood waters over the crest of the soil dam. From here, the insertion height will be determined by the following formula:

,

,

- отметка форсированного подпорного уровня воды, м;

- отметка нормального подпорного уровня воды, м; а - превышение отметки

над верхом гребня размываемой вставки, м.where H _vst - the height of the eroded insert, m;

- mark forced water level, m;

- mark of normal retaining water level, m; a - excess mark

above the top of the ridge of the eroded insert, m.

The reserve spillway at the soil dam works as follows: when the water level in the upper pool of the reservoir rises to the FPU mark (Fig. 1-4), the flow overflows through the crest of the soil insert, eroding it to the polymer geomembrane of the protective coating to allow floods of rare occurrence. The filtration stream is diverted through a tubular drain into a discharge channel.

The use of this invention will improve the reliability of the backup spillway and will ensure the safe passage of ultra-high flow rates during floods and floods.

Claims (3)

1. Lightweight reserve spillway at a soil dam, including a soil washable insert, which is a trapezoidal section prism, located in the water supply part of the reserve spillway, where a protective coating is arranged around the bed perimeter, as well as on the upper and lower slopes, characterized in that the protective coating made of geo-cellular geosynthetic material with perforation filled with fine-grained gravel and porous concrete, on top of which a polymer geomembrane with iron ribs is laid bone rectangular profile, located between the drain threshold of the spillway and eroding soil insert. 2. Lightweight backup spillway according to claim 1, characterized in that the polymer geomembrane is fixed with metal anchors with a polyethylene gasket and its subsequent welding to the polymer coating sheet. 3. Lightweight standby spillway according to claim 1, characterized in that the height dirt erodible inserts determined using the following formula: H = _adt ∇FPU-∇NPU-a, where H _adt - height erodible inserts, m; ∇ FPU - mark of forced retaining water level, m; ∇ NPU - mark of normal retaining water level, m; a - excess of the mark ∇ FPU over the top of the crest of the eroded insert, m

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