RU2614236C1 - Method of formation of quays using ash waste pulp - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for formation of quays using ash waste pulp includes preliminary formation of a ditch with the width greater than the width of geotube laying, while in areas with formed ditch the waterproofing material with the width greater than the width of the ditch is continuously laid, the first row of geotubes is filled with ash waste supplied in the form of liquid mixture, in the second row a part of geotubes are filled with a filtrate flowing down the formed slope sections of the ditch, and the other part of geotubes is filled with ash waste. Period of alternation of geotubes with filtrate and of geotubes with ash wastes depends on the amount of filtrate required to fill the geotubes without stopping the leachate pumping process.

EFFECT: formation of quays using slag waste and ash waste leachate with a possibility of denser packing of the materials used at the maximum extraction of fine particles of ash waste.

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Description

The invention relates to methods and devices for carrying out work in hydraulic engineering, in particular to methods for forming planning embankments at the boundaries of water bodies using ash and slag waste pulp.

There is a method of reagent-free dehydration of finely dispersed coals (Adzhienko V., Ladner I., Terauds Y. Large-sized closed filtering shells. St. Petersburg, 2012, p. 199-201), in which initially the pulp with coal sludge is fed into the geotube intended to hold large particles of unburned coal, located on a water-resistant base, the resulting filtrate flows into the sump, from where it is fed into the geotube to filter fine sediment particles.

The disadvantage of this method is the spatial separation of the geotube for different particles of coal and the inability to densely pack the geotube to form an embankment or raise the level of the shore.

There is also known a method (US patent No. 7357598), in which using a geosynthetic material form a spiral structure of geotubes.

The disadvantage of this method is the difficulty and inability to use ash and slag waste filtrate, as well as the impossibility of tight packing of geotubes to form an embankment or raise the level of the shore.

An object of the present invention is to develop a more economical method of forming embankments at watercourses using ash and slag waste and ash and slag waste filtrate with the possibility of denser packaging of the materials used with maximum retention of fine particles of ash and slag waste.

The specified technical result is achieved by the fact that the proposed method of forming embankments using pulp of ash and slag waste, including the preliminary formation of a ditch with a width greater than the width of the laying of geotubes, while waterproofing material with a width greater than the width of the ditch is continuously laid on sections with a formed ditch, the first row of geotubes it is filled with ash and slag waste coming in the form of a liquid mixture; in the second row, part of the geotube is filled with filtrate flowing down the formed area s slope of the ditch, and the other part geotub filled with ash and slag waste time interleaving geotub with the filtrate and geotub with ash wastes determined by the amount of filtrate required to fill geotub without stopping leachate pumping process.

The possibility of achieving the result is ensured by the fact that when filling the geotube with a liquid mixture (pulp) of ash and slag waste, the filtrate separated from them with a finely dispersed fraction does not leak into the soil, but flows down the slope of the waterproofing layer into the lower part of the ditch, where, as it accumulates, it is directed either to separate geotubes, or in geotubes partially filled with a large fraction of ash and slag waste. At the same time, finely dispersed particles, for example, less than 40 microns, gradually clog geotextiles with pores, for example, from 80-200 microns (SoilTainHT), which leads to the formation of an applied filter layer with smaller pores on the inner surface of the geotube shell through which ultimately only clean water, which allows the use of at least 99% of ash and slag waste. The alternation of tubes with a large fraction (primary ash and slag waste) and a small fraction (filtrate) allows directly filling the embankment, raising the level of the coastline, without any effluent of liquid waste into the river, directly in the entire volume of the ditch with an optimal degree of strength in several higher rows.

The drawing shows a diagram of the implementation of the method of forming embankments using pulp of ash and slag waste.

The proposed method is implemented as follows: a ditch 1 with a width greater than the width of the geotube laying is preformed, while waterproofing material 2 with a width greater than the width of the ditch is continuously laid on the sections with the formed ditch, while the first row of geotubes 3 is filled with ash and slag waste coming from the thermal power plant through pipeline 4 in the form of a liquid mixture, in the second row part of the geotube 5 is filled with filtrate 6, flowing down along the formed sections of the slope of the ditch and flowing through pipeline 7, and the other part of the geotube the tube is filled with ash and slag waste, while the period of alternating geotubes with filtrate and geotube with ash and slag waste is determined by the amount of filtrate required to fill the geotube without stopping the process of pumping out the filtrate.

Thus, the technical problem of forming the embankment using ash and slag waste and ash and slag filtrate is solved with the possibility of denser packaging of the materials used with the maximum extraction of fine particles of ash and slag waste.

Claims (1)

A method of forming embankments using a pulp of ash and slag waste, including preliminary formation of a ditch wider than the width of the geotube, while waterproofing material is continuously laid on the sections with the formed ditch wider than the width of the ditch, the first row of geotubes is filled with ash and slag coming in the form of liquid mixture, in the second row part of the geotube is filled with filtrate flowing down along the formed sections of the slope of the ditch, and the other part of the geotube is filled with ash and slag waste, the period of alternating geotubes with filtrate and geotubes with ash and slag waste is determined by the amount of filtrate required to fill the geotubes without stopping the process of pumping out the filtrate.

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