SU1098990A2 - Method of erecting earth structure in water basin - Google Patents

Abstract

METHOD OF CONSTRUCTION OF GROUND CONSTRUCTION IN THE WATER COLLECTION by author. St. 983173 / characterized by the fact that, in order to increase the reliability of the construction on the cape-shaped areas by creating an underwater reach, an additional nta is produced from the ratio eg Hg -3, b5H at the cape-shaped sections from the seawall edge of the structure. ,R. the width of the additional prism of the house along the top is the depth of the water before the construction on the head-shaped section; exceeding the crest of an additional prism by drowning over the water edge of 0.5-1.0 M) critical water depth for a group of i-% security waves, with the greatest amount of work expended in re-shaping the structure's slope to be dynamically stable; coefficient of proportionality in determining the most likely () and possible () maximum erosion.

Description

The invention relates to hydraulic engineering, in particular to methods for constructing soil hydraulic structures by washing the soil in water. According to the main author. St. No. 983173, a method of erection of a soil structure is known, which means that all the soil is laid in water before the island is formed with a distance between the edges along the water edge, determined from the ratio E, e-3, where E (, p is the distance between the lateral edges of the island along the water's edge after laying the ground is the design width of the ridge of the structure; i and the sum of critical depths for waves of 35% availability from the water body and the water area; m is the embedment factor for the water slope of the soil. discharging process the waves of the upper part of the initially washed profile and the transfer of products of erosion into the lower accumulative zone, the underwater slope acquires the dimensions and outlines of a dynamically stable pinhole l. However, the structures erected by the method of washing the ground into water form various shorelines consisting of straight lines (with a wave coverage angle of 0.180) and t / in a combination (with a coverage angle of 0,) plots. Due to wave refraction and a long duration of waves when the waves approach from different directions in similar areas the interest in soil erosion is lateral when we are higher. In order to maintain the same and sufficient distance between the edges along the water edge both on the straight sections of the structure and on the vertex-like for the period of operation, it is necessary to provide for the latter additional protection of the structure, for example, the construction of wave-quenching structures. This complicates the construction process and increases its cost. The aim of the invention is to increase the reliability of the structure by creating an underwater reach. The goal is achieved by the fact that from the side of the porous edge of the structure, on its captivity-like sections, an additional prism of soil is produced, the top width of which is determined from the ratio - (20bt348) -4.6t, where Eg is the width of the additional prism that joins along the top; RA is the water depth before the construction on the cape area; yb - the crest of the additional prism of the house above the water edge of 0.57-1.0 m; npi is the critical water depth for groups of waves of 1% security with the greatest amount of work spent on re-shaping the structure's slope to dynamically stable; - coefficient of proportionality in determining the most likely (Kp 205} and possible (Kp 380) maximum erosion. The drawing shows a soil structure, transverse profile, on the cap-shaped section of the erected structure. Alluvium is washed into the cap-shaped section before forming a profile with Pijp, including profile 1 with a distance of a drill between the side edges along the water edge, and an additional prism 2 of soil with a width along the top if satisfying the reduced empirical relation (2) obtained by As a result of the wave destruction process of the upper part of the initially washed profile 1 and the additional prism 2 and the transfer of erosion products to the lower accumulator zone 3, the underwater slope on the mouse-shaped section acquires the outlines 4 dynamically stable profile of the underwater reach with dimensions that satisfy the ratios obtained on the basis of processing the data of field observations of EPL (600 f 1256) H, p. H, 1.65. , pl 5 Kpi J where Bn is the width of the underwater reach; H is the depth of water in the reach at the edge of the structure after being processed by waves; Нцд- water depth at the seaward edge of the reach.

310989904

At the same time, as observations have shown, water before forming a profile with the indicated most likely width of the reach, by the parameters of ScVr + at the hole that was irradiated after re-shaping the wave sections of the structure, allows consciously initially mined profi

l with; taking into account the additional prism; necessary and sufficient to obtain

under the influence of a wave in the process of its transformation by waves

large waves up to 2.7 m high, having a dynamically stable profile as

There is a value of 735Hk; p for co-on straight lines and for capes from fine-grained sands in the construction sites. This is the greatest amount of work, for the possibility of inhing insufficient

spent on re-shaping the oko-10or or an excess amount of the soil of the structure to hydrodynamically, thereby providing

stable, have a wave of 35% reliability of construction and lowering of its cost in comparison with the use of the method of erection with other known ground construction of alluvial soil in 15 days of protection.

Claims (1)

METHOD OF CONSTRUCTION OF UNDERGROUND STRUCTURE IN A RESERVOIR by ed. St. No. 983173, characterized in that, in order to increase the reliability of the structure in the cape-shaped areas by creating an underwater stretch, an additional soil prism is being washed from the seamy side of the structure in its cape-shaped sections, the width of the top of which is determined from the ratio Eg Ms-Z'bBNtsr · where 2y is the width of the additional prism of the hauling along the top; N _gd - the depth of the water before construction on the cape; th — excess of the crest of the additional washing prism over the water edge of 0.5-1.0 m; N _Ch - critical water depth ¹ for a group of waves of ΐ% security, which have the largest amount of work required to reform the slope of the structure to dynamically stable; Кр - proportionality coefficient when determining the most probable (Кр = 25) and possible (Кр = 380) maximum values of erosion.