RU2604492C1 - Method of cleaning water bodies from alluviums - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: invention relates to hydrotechnical and water engineering, in particular, to methods of cleaning of small rivers, ponds, channels and other water bodies from bottom alluviums. Method comprizes a device in channel zone of diversion dykes 5, formation of sections of alluvium dumps 4, arrangement of water-discharge channel 12, recovery of bottom deposits by dredger 2, reclamation of sediments by pulp line 3 into sections of alluvium dumps 4, discharge of excess water and reclamation leveling of dump surface. Additionally, before beginning of reclamation of alluviums, water catch channel 10 and open tank 11 are constructed, as well as for each section of dumps of alluviums 4 diversion dykes 5 of the whole height of only from three sides are arranged. In the base of section of dumps of alluviums 4 drain horizontal lengthwise elements 8 are arranged as well as adjacent drain horizontal crosswise elements 7. Then, having low height water drain diversion dyke 6, adjacent to the collecting channel 10 is constructed. After that, reclamation of alluviums in section 4, is performed, while excess water from section 4 is discharged by gravity through a water drain diversion dyke 6 in water intake channel 10, further, into open tank 11, where it lightened due to loss of alluviums in residue. Then, clarified water by gravity via water collecting channel 12 is discharged into water body 1. After completion of reclamation of alluviums and filling section of dumps of alluviums 4 in body of reclaimed alluviums drainage vertical elements 9 are installed till their coupling with drain horizontal elements 7 or 8. Dewatering of body of water-saturated alluviums is performed by gravity via drain vertical element 9 and drain horizontal elements 7 and 8 in water intake channel 10.

EFFECT: method allows to perform cleaning of water bodies from alluviums and dewater body of alluviums in a relatively short time, hence, to increase technological effectiveness of operations, reduce terms of their execution, as well as to increase efficiency of using of construction equipment and its efficiency.

5 cl, 3 dwg

Description

The invention relates to the field of hydraulic engineering and water management, in particular to methods for cleaning small rivers, ponds, canals and other water bodies from bottom sediments.

A known method of cleaning water bodies from sediment, including the formation of sections, sampling of bottom sediments and discharge of excess water (RF Patent 2219305, 2003 [1]). In the method, sections are formed directly in the river channel by blocking a section of the river channel with temporary dams transverse from coast to coast.

The disadvantages of this method are the large material consumption and the complexity due to the need to use concrete walls to form sections, as well as to work to strengthen them to maintain water pressure and sealing in order to insulate the sections from each other. The greater complexity is also due to the need to install an isolated section, the last along the river in the enclosed area, to be used as a barrier to prevent water breakthrough from above. The large material consumption is also due to the use of a large amount of equipment for washing the bottom material and its transportation: sediment, conveyors, gutters, process activation apparatuses, sand traps, hydrocyclones. The disadvantages of this method are also the high energy intensity due to the consumption of electricity to ensure the operation of the above equipment. In addition, the disadvantage of this method is the formation of a large amount of suspended sediment in the river due to severe turbidity due to the fact that bottom sediments from gravel and large pieces are sent to form a new bottom of the river, and sand from a sand trap is sent by a conveyor to form the bottom .

There is also a method of cleaning water bodies from sediment, including the formation of sections, sampling of bottom sediments, the device of the dams of the debris, the device of a spillway, sediment washing, discharge of excess water and the layout of the surface of the dump (RF Patent 2416000, 2011 [2]) - prototype. In the method, sections are formed in the near-river zone due to the device of bunding dams, sediment is washed in the sections, and excess water is discharged from the sections into the river by gravity through the spillway.

The disadvantage of this method is its low manufacturability, namely: a long lead time, low efficiency of use of equipment and low productivity of the used technical means. So, the layout of the surface of the blade in this method is carried out only after the consolidation of washed out of sediment water-saturated soil. The process of consolidation of water-saturated soil takes a long period [3, p. 388-402], which can reach several months. In this regard, the planning of the surface of the soil in the washed odd sections, as well as the preparation of even sections for washing with the movement of soil on the surface of the odd sections can only begin after waiting for the required period of time. Even for partial consolidation of the soil in odd sections, providing a set of soil strength necessary for moving construction equipment (for example, a bulldozer) along it, it will take several weeks. Such a forced wait between technological operations and simple construction equipment leads to inefficient use of equipment and a decrease in the productivity of the used technical means, and the manufacturability of work will be characterized as low.

The disadvantage of this method is the significant turbidity of the water in the river and the formation of a large amount of suspended sediment due to the discharge of excess water with many particles of bottom sediment from the sections along the spillway channel directly into the river. Suspended sediments adversely affect the ecological situation in the river, including damage to fish stocks and reduce water quality. In addition, downstream the suspended sediments will precipitate and thereby contribute to the formation of bottom sediments, i.e. siltation of the channel.

The reasons that impede the achievement of the technical result provided by the invention are: the need to wait for a long period of time for the completion of the consolidated sediment consolidation process, which leads to downtime of construction equipment, reduced workability and efficiency of use of construction equipment, as well as the inability to prevent sediment delivery along with discharged excess water into the water body when they are washed in, which leads to pollution of the water body.

The essence of the invention is the creation of conditions to reduce the period of dehydration of a water-saturated body of sediment washed on the coastal site when cleaning water objects from bottom sediments and preventing sediment from entering the river by means of a device at the base of the sections of the heaps previously, prior to sediment sedimentation, horizontal horizontal drainage elements and conjugated with them drainage horizontal transverse elements; devices in the body of washed sediment after completion of sedimentation of sediment drainage vertical elements until they are paired with drainage horizontal longitudinal elements; devices before the start of sediment sediment open tank on the spillway; discharge of excess contaminated water into the drainage channel during sediment sedimentation, then to an open reservoir, where it is clarified by sediment deposition, and then to a water body, and upon completion of sediment sedimentation in the section, discharge of water from water-saturated sediment layers through drainage vertical elements, along the horizontal drainage horizontal elements and along horizontal horizontal drainage elements - into the drainage channel.

The technical result of the invention is improving manufacturability, reducing the time for cleaning water objects from sediment, increasing the efficiency of construction equipment and increasing the productivity of construction equipment by reducing the time between technological operations, as well as reducing turbidity in the river by preventing the discharge of sediment from sections sediment dumps together with excess water in a water body.

The specified technical result is achieved by the fact that in the method of cleaning water bodies from sediment, including the device in the near-river zone of the dams of deboning, the formation of sections of dumps of sediment, the device of a spillway channel, the selection of bottom sediments, sedimentation, discharge of excess water and the layout of the surface of the dump, in addition to the beginning of sediment sedimentation, a drainage channel and an open reservoir are constructed between the drainage and drainage channels, and for each section of the dumps of sediments dumping dams are arranged to the full height only on three sides: two lateral embankment dams and one on the water body side, then drainage horizontal longitudinal elements and associated horizontal horizontal transverse elements are arranged at the base of the sediment dump section, and horizontal horizontal drainage elements are brought into the drainage channel, then between the ends of the side dams of the deboning remote from the water body are constructed having a lower overflow dam adjacent to the waters relative to other dams to the collecting channel, after that, the bottom sediments are sampled from the water body and sediment is washed into the sediment dump section, while the excess water from the sediment dump section is gravity-discharged through the sewerage dumping dam into the drainage channel, then by gravity into an open tank where excess water is clarified behind due to sediment deposition, and after that already clarified water is also discharged by gravity through the spillway into the water body, and after the completion of sedimentation and filling of the section of sediment dumps in bodies of washed sediments, drainage vertical elements are installed by immersing them with an immersion device to the entire depth of washed sediments until they are paired with drainage horizontal longitudinal elements or drainage horizontal transverse elements, while water is drained from the body of water-saturated washed sediments by gravity drainage along vertical drainage elements, horizontal drainage transverse elements and horizontal drainage longitudinal elements into the drainage channel, and then gravity is diverted to the open a dredged reservoir and through a spillway channel into a water body, moreover, the planning of the surface of the sediment dump in sections of the dumps of sediments begins to be carried out immediately after dewatering of the washed sediments.

Horizontal drainage elements are performed, for example, in the form of drainage ditches filled with crushed stone, and on top they are covered with geosynthetic permeable material, or in the form of drainage pipes lined with crushed stone and covered with geosynthetic permeable material. A spillway overflow dam is arranged in the form of a soil overflow water support structure and is covered with geosynthetic material to prevent erosion during the overflow of excess water. Drainage vertical elements are performed, for example, in the form of tape geodrains COLBONDDRAIN CX1000.

The essence of the method of cleaning water bodies from sediment is illustrated by schemes. In FIG. 1 shows a scheme for cleaning a body of water from sediment by the proposed method; in FIG. 2 shows a section AA of FIG. 1 for the period of sedimentation in the section; in FIG. 3 shows a section AA of FIG. 1 upon completion of sedimentation of sediment into the section.

On the diagrams, the numbers indicate: 1 - water body, 2 - dredger, 3 - slurry pipe, 4 - section of sediment dumps, 5 - ditching dam, 6 - drainage ditching dam, 7 - horizontal horizontal drainage element, 8 - horizontal horizontal drainage element, 9 - vertical drainage element, 10 - drainage channel, 11 - open reservoir, 12 - drainage channel.

Information confirming the possibility of carrying out the invention.

The proposed method for cleaning water objects from sediment includes a device in the near-river zone of the embankment dams 5, formation of sections of sediment dumps 4, a spillway channel 12, sampling of bottom sediments with a dredger 2, alluvial sediment loading through slurry pipe 3 in the section of sediment dumps 4, discharge of excess water through the spillway channel 12 and the layout of the surface of the sediment dump in sections of the sediment dumps 4. The peculiarity of this method is that first, before the start of sediment loading by the dredger 2 in the section of sediment dumps 4, a catchment is constructed the second channel 10 and the open tank 11 between the drainage channel 10 and the drainage channel 12, for example, by means of construction equipment - a bulldozer, excavator or scraper. Also, with the help of construction equipment, for each section of alluvial dumps 4, dumping embankments 5 are arranged at full height on only three sides: two lateral embankment dams and an embankment dam from the side of the water body. Further, at the base of the section of sediment dumps 4, drainage horizontal transverse elements 7 and associated horizontal drainage longitudinal elements 8 are arranged. These drainage horizontal elements are arranged, for example, in the form of drainage ditches filled with crushed stone, top coated with a geosynthetic permeable material, or in the form drainage pipes lined with crushed stone and covered with geosynthetic permeable material [4]. Moreover, the horizontal drainage longitudinal elements 8 are discharged into the drainage channel 10, then, between the ends of the lateral dams of rock 5 remote from the water body, a lowering drainage dam 6 adjacent to the drainage channel 10 is constructed. The drainage dam 6 is arranged, for example, in the form of a soil overflow water-supporting structures and cover it with geosynthetic material to prevent erosion during overflow of excess water [5] or [6, Fig. 5]. After that, the bottom sediments are sampled with a dredger 2 from water body 1 and sediment is washed by slurry pipe 3 into the section of sediment dumps 4, and the excess water from the section of sediment dumps 4 is gravity-discharged through the overflow dam 6 in the drainage channel 10, then by gravity into the open tank 11, where it is clarified due to sediment sedimentation, and after that, already clarified water is also discharged by gravity through the spillway channel 12 into water body 1. After the sediment has been washed up with a dredger 2 and the section is filled sediment dumps 4 in the body of the washed sediment install drainage vertical elements 9 by immersing them with an immersion device to the entire depth of the washed sediment until they are paired with the drainage horizontal longitudinal elements 8 or drainage horizontal transverse elements 7. Drainage vertical elements 9 can be performed, for example, in the form of tape geodrains COLBONDDRAIN CX1000 [7], and as a submersible device, for example, a drainage-setting machine [7] was used. In this case, water is drained from the body of water-saturated sediments by gravity along vertical drainage elements 9, horizontal horizontal drainage elements 7, horizontal horizontal drainage elements 8 into a drainage channel 10, and then by gravity discharge into an open reservoir 11 and by a drainage channel 12 into a water body, moreover, the planning of the surface of the sediment dump in sections of the dumps of sediments 4 begin to perform immediately after dewatering the washed sediment in the sections of the dumps of sediments 4.

Thus, in the proposed method due to the organization of gravity drainage of water from the body of washed sediment from sections of sediment dumps 4 through vertical drainage elements 9, horizontal horizontal drainage elements 8 and horizontal horizontal drainage elements 7, the water body is cleaned of sediment and the body of sediment dumps is dehydrated in shorter periods due to a significant acceleration of the process of soil consolidation. In this regard, the execution time will be significantly reduced due to the reduction of time between technological operations. Simple construction equipment will also be reduced. In turn, this will improve the manufacturability and productivity of work, as well as the efficiency of the use of construction equipment. In addition, the organization of clarification in an open tank of highly turbid sediment water discharged from sections of sediment dumps will ensure the prevention of sediment particles from sections of sediment dumps together with excess water in a water body. This, in turn, will eliminate the pollution of the river, reduce the negative impact on the river, and reduce the risk of siltation of its channel.

The economic efficiency of the proposed method due to only reducing the downtime of construction equipment can be estimated as follows. Let ZGDM 400/40 dredger be used for alluvium and a CHETRA T-9 bulldozer for leveling the surface of the blade. The costs of their operation in 2001 prices are for a bulldozer - according to table 01-01-030-05 [8] = 0.69 rub / m ³ /0.00605 m × h / m ³ = 114.05 rub / h; for a dredger - according to table 44-01-006-02 [9] = 12.97 rub / m ³ /0.128 mash × hour / m ³ = 101.33 rub / hour. Total will amount to 215.38 rubles / hour = 5169.12 rubles / day. Then, with a decrease in equipment downtime by only one month, the cost of work will decrease by about 114 thousand rubles. at 2001 prices.

List of sources used

1. Vershinin N.P., Vershinin I.N. The method of cleaning the channels of small rivers // RF Patent 2219305, publ. 12/20/2003.

2. Kizyaev B.M., Golubev N.K., Base V.N. A method of cleaning canals and waterways from sediment // RF Patent 2416000, publ. 04/10/2011.

3. Stories LN, Orekhov VG, Aniskin N.A. Waterworks. Part 1. Textbook for universities. - Moscow: Publishing House of the Association of Building Universities, 2008. - 576 p.

4. Design, installation. Indoor drainage, installation of drainage pipes, drainage wells, http://cah-ld.ru/doc/67.htm. Date of appeal 05/20/2015.

5. Balzannikov M.I., Rodionov M.V. Overflow soil dam // RF Patent 2432432. Publ. 2011. Bull. No. 30.

6. Balzannikov M.I., Piyavsky S.A., Rodionov M.V. Improving the design of low-pressure soil overflow dams // News of higher educational institutions. Construction. 2012. No5. S. 52-59.

7.http: //www.geovostok.ru/colbonddrain-vertikalnyj-lentochnyj-drenazh. Date of appeal 05/20/2015.

8. Federal unit prices for construction work FER-2001. Collection No. 1 - Earthworks // Gosstroy of Russia. - Moscow, 2001.

9. Federal unit prices for construction work FER-2001. Collection No. 44 - Underwater construction (diving) works // Gosstroy of Russia. - Moscow, 2001.

Claims (5)

1. The method of cleaning water objects from sediment, including the device in the near-river zone of the dikes of debris, the formation of sections of sediment dumps, the device of a spillway channel, the selection of bottom sediments, alluvial sediment discharge, discharge of excess water and the layout of the surface of the dump, characterized in that it is additional, before the start of the alluvium sediment, construct a drainage channel and an open reservoir between the drainage channel and the drainage channel, and also for each section of dumps of sediment dumping dams to full height on only three sides : two lateral embankment dams and an embankment dam from the side of the water body, then drainage horizontal transverse elements and associated horizontal drainage elements are arranged at the base of the sediment dump section, the latter being discharged into the drainage channel, then between the ends of the lateral embankment remote from the water body constructing a lowering overflow dam adjacent to the catchment channel having a lower height relative to other embankment dams, after which a sampling of sediments from a water body and sediment alluvial into the sediment dump section, while excess water from the sediment dump section is gravity-fed through a sewerage dumping dam into a drainage channel, then by gravity into an open tank where excess water is clarified due to sediment precipitation, and after that, the already clarified water is also discharged by gravity through the spillway into the water body, and after the completion of the sediment sedimentation and filling of the sediment dump section, the drainage vertical The elements are submerged by immersing them through the entire depth of the washed sediment until they are paired with horizontal horizontal drainage elements or horizontal transverse drainage elements, after which water is drained from the body of the water-saturated washed sediment by gravity along the vertical drainage elements, horizontal horizontal drainage elements, drainage horizontal longitudinal elements into the drainage channel, and then gravity discharge into an open reservoir and through the drainage channel into water the first object, the surface of the blade plan sediment sediment in dumps sections begin to perform immediately after the dewatering saturated namytyh sediment. 2. The method according to claim 1, characterized in that the drainage horizontal transverse elements and drainage horizontal longitudinal elements are in the form of drainage ditches with filling them with crushed stone, and the top is covered with a geosynthetic permeable material. 3. The method according to claim 1, characterized in that the drainage horizontal transverse elements and the drainage horizontal longitudinal elements are in the form of drainage pipes and cover them with rubble, and on top they cover with a geosynthetic permeable material. 4. The method according to claim 1, characterized in that the overflow weir is arranged in the form of a soil overflow water support structure and cover it with geosynthetic material. 5. The method according to claim 1, characterized in that the drainage vertical elements are in the form of tape geodrains COLBONDDRAIN CX1000.

Images