SU1134664A1 - Method of hydraulic filling of hydraulic structure - Google Patents

Abstract

METHOD OF DRINKING HYDROTECHNICAL STRUCTURE, including the construction of a longitudinal dam and transverse rollers located at an acute angle to it, and the production of pulp perpendicular to the longitudinal axis of the structure, in order to reduce the depth of soil freezing during the construction of the structure in winter conditions by limiting spreading flow of pulp on the map of alluvium, transverse rollers are erected from the place of production of pulp to the water line of the pond - settling tank at an angle to each other with the top in the place of production of pulp, while in angle is determined from the continuity condition pulp stream. t od NC O5 05 4

Description

The invention relates to hydraulic engineering, namely, to the reclamation in a hydro-mechanized way of dumps and tailings. (sludge storage) in the winter.

There is a method of washing hydraulic structures by releasing a concentrated pulp stream from the end of the slurry pipe placed perpendicular to the embankment dam and leveling the layer to the entire height with subsequent movement of the end of the slurry pipe along the construction axis [I].

The disadvantage of this. The method is that the pulp flow freely spreads over the alluvial map, which leads to an increase in the depth of freezing of the soil in the case of alluvia in winter conditions. .

There is also known a method of erecting earthworks, according to which, before washing each subsequent layer on the surface of the structure being constructed, longitudinal zigzag shafts of their washed soil are arranged, after which the next soil layer is washed [2].

The disadvantage of this method is its unsuitability for washing in a concentrated manner in winter conditions.

Closest to the invention is a method of washing a hydraulic structure, including the construction of a longitudinal dam and transverse rollers located at an acute angle to it, and the release of pulp perpendicular to the longitudinal axis of the structure [3].

The disadvantage of this method is that with the free spreading of the pulp, the flow breaks up into individual streams, which randomly move along the alluvium map. In winter conditions on. areas that are currently free from pulp flows, there is intense freezing of the soil, which is washed out in subsequent periods? As a result of these processes due to constant freezing, the depth of freezing is very significant.

The purpose of the invention is to reduce the depth of freezing of the soil during construction in winter conditions by limiting the spreading of the pulp flow on the alluvium map.

This goal is achieved by the fact that according to the method of washing the hydraulic structure, including the construction of a longitudinal dam and transverse rollers located at an acute angle to it, and the pulp discharge perpendicular to the longitudinal axis of the structure, transverse ₅ rollers are erected from the pulp outlet to the water edge of the pond-settler at an angle to each other with an apex at the place of pulp discharge, the angle being determined from the condition of continuity of the pulp flow.

1 ° As a result of such deboning, the pulp flow is in cramped conditions, the lap map is almost completely and during the entire lap time is covered by spreading pulp ^ which acts as a screen that protects the beach from freezing.

The drawing shows a diagram explaining the proposed method.

The method is as follows.

² θ Pour dike dam 1. A slurry line 2 is laid on the embankment dam 1. From the place of pulp discharge from the slurry discharge 3 to the water edge of the settling pond 4, transverse rollers 5 are erected at a given angle to each other, which impede the free flow of the pulp '(the arrows in the drawing show the spread of pulp). From pulp release 3 carry out concentrated release of pulp on the map 6 of the alluvium.

ZS Example. A longitudinal dam is poured, bunds 2–2.2 m high, on which a slurry pipeline is laid. From the place of pulp discharge to the edge of the pond’s water, from _{: the} stand at an angle of 45 ° to each other, transverse rollers are driven 18–2 m high. The lavage is carried out from the pulp outlet with a diameter of 800 mm with a hydraulic mixture flow rate of 1 m ^j / s. The length of the alluvial card is 75 m. After the washing up, the alluvial cards are produced in the next section according to the same scheme. The intervals between 40 washed cards are washed out in the summer. ,

Using the proposed method of washing the hydraulic structures in winter conditions allows to reduce the freezing depth on the map of the alluvium; to wash in the area of persistent prisms; to reduce the costs associated with the need for loosening and removing frozen soil from the alluvium map, and also to increase the stability of the structure due to a decrease in the permafrost washing in the body of the structure.

Claims (1)

METHOD FOR WASHING A HYDROTECHNICAL STRUCTURE, including the construction of a longitudinal dam and transverse rollers located at an acute angle to it, and the release of pulp perpendicular to the longitudinal axis of the structure, characterized in that, in order to reduce the freezing depth of the soil during the construction of the structure in winter conditions by limiting the spreading of the flow in winter pulps on the alluvial map, transverse rollers are erected from the place of pulp discharge to the water edge of the settling tank at an angle to each other with a peak at the place of pulp discharge, while the value of la is determined from the continuity of the pulp flow.