RU2692340C1 - Method of erecting an ellipsoidal enclosure wall (embankment) on landfill of ash utilization from combustion of sewage sludge - Google Patents

Abstract

FIELD: construction.SUBSTANCE: method of erecting an ellipsoidal enclosure wall (embankment) on a landfill of utilization of ash from combustion of waste water sediments consists in the fact that a wall is poured out from a mixture of ash from combustion of sewage sludge and nepheline slurry in ratio of components from 8:2 to 3:7 with its mixing, humidification and subsequent compaction, spirally-circular scheme in layers "steps", with longitudinal slopes of entry/exit within 60–90 ‰, with formation inside space for storage of recycled ash.EFFECT: invention relates to construction of engineering structures, in particular, to a circular enclosure of enclosure with height of up to 30 m at the disposal area of ash from combustion of sewage sludge.1 cl, 6 dwg, 1 tbl

Description

The planned fencing wall technology is necessary to ensure the entry and exit of dump trucks with and without ashes on the fencing wall with maximum slopes of lifting no more than 90%, to increase its height and the main slope stability with a coefficient of steepness within 1: 0 , 5-1: 1.

The final design of the hollow selenoid (ellipsoid or circular shell) of the enclosing wall is formed according to the scheme of several stages, parts of the structure using the daily volume of incoming ash to the “Northern” landfill, which is 50-60 tons and nepheline sludge as an active additive.

At the first stage, preparatory work is carried out (planning of the territory, marking of the axes of the ellipse and 4 access roads) and laying waste (a mixture of ash and nepheline sludge) first into the wall of the fence from a point on the top of the major axes of the ellipse (Fig. 6) These points are the basis of the wall slope, which will be formed to the estimated height of 20-30 m.

.The dumping of the enclosing wall from the 2 main vertices of the ellipse goes from 4 sides in a descending arc along the 4th access roads (see Fig. 1) to the small vertices of the ellipse with a slope of not more than 90

.

At the 2nd stage, the height of the wall of the fence is increased from the side of half-arcs, which is perpendicular to the small axis of the ellipse (Fig. 3, Fig. 4), which simultaneously allows forming races to the wall of the fence, to the wall of the fence, which are parallel to the large axis of the ellipse and adjacent to the walls, and then go to the bottom of the exit road (Fig. 5).

At this stage, the races should be located on both sides relative to the wall of the fence and the walls that are perpendicular to the minor axis of the ellipse are finally formed (see Fig. 2), and the construction of races should run parallel to the “side” walls.

At the 3rd stage, the walls of the fence are finally leveled and compacted, the process of filling the inner container of the ellipse with ash from the incineration of sewage sludge is being filled.

The technology relates to the field of recycling of household and industrial wastes of cities where plants for the incineration of their sewage sludge in fluidized bed furnaces exist or are designed.

The known method and.with. USSR №571449, cl. C, 04B 7/06, 02.12.75 "Binding for fastening soil in road and airfield construction", by strength indicators, including, mas .:

nepheline sludge 60-80;

cement 10-20;

granulated fuel slag 10-20.

This composition provides the compressive strength of the material at 28 and 90 day old equal to 2.8 MPa and 5.45 MPa, respectively, at a molding pressure of 100 kg / cm ² .

In the proposed anchoring mixture, nepheline sludge is used, capable of creating durable structures.

The technical result - recycling production.

A known method of disposal of ash in road construction No. 2471913 from 23.03.11 "Method of constructing a structural layer of pavement based on ash from the incineration of sewage sludge.

The invention relates to the construction of roads and can be used for the device design layers of pavement. The road mixture contains mineral natural sand of fraction <5 mm and ash (product of incineration of sewage sludge from municipal and municipal services) in a ratio of 7: 3-6: 4, respectively, treated with fine ground lime. % 6-10, with an activity of at least 60% on the content of CaO and MgO, or cement brand M 400 mass. % 6-10, moistening with water - 12-15%, bitumen - 4-8% by weight of the mixture.

Technical result: the method allows to improve the physicomechanical properties of the road mix by a simplified economical technology, reduce the cost of expensive materials, and also ensure the environmental safety of the environment by disposing of ash, which contains pollutants.

This method, unlike ours, contains a mixture of binding components (lime, cement, bitumen), thereby creating a solid structure of the material. In the known mixture there is no waste from the industry - nepheline sludge.

The known method No. 2148050 "Raw mix for the production of cellular concrete.

The mixture relates to the production of building materials, containing ash component, Portland cement and aluminum powder, as the ash component contains ash from the incineration of sewage sludge from municipal and municipal services with a specific surface of 400-600 m ² / kg, bulk density of 600-800 kg / m ³ and the content of SiO ₂ - 1.5-2.0% in the following ratio of components, mass. %: ash - 38.4-61.4; Portland cement - 38.4-61.4; aluminum powder - the rest.

Technical result: recycling of municipal waste in the construction industry. The material from this mixture has high strength, achieved a significant consumption of binder - Portland cement, which is economically disadvantageous for road construction. Concrete made from this raw mix has significant water absorption and has a relatively low frost resistance, which limits its use in road constructions.

Research in the field of utilization of ash from the incineration of household and industrial waste.

Known application for the invention No. 2148130C1 "Method of construction of a layered monolithic wall and hollow ceramic stone for the construction of a monolithic layered wall"

This method is based on the use of ash and astringent AB - powder to create a vertical monolithic system with a facing surface with a consumption of cement from 25 to 40% of the total mass.

Known patent RU №2148047 from 07.27.2000 "Raw mix for the preparation of ceramic-ceramic stones and bricks". This mixture for the manufacture of ceramic stones and bricks contains in its composition clay masses, in percentage, from 20 to 98%, which reduces its water resistance in the open air and can lead to destruction under the wheels of dump trucks.

Known application No. 2007119813/04 of 28.05.2007 "Composition for the repair of asphalt concrete pavements" and refers to the road construction in the composition: high calcium fly ash CHP and Portland cement, silica sand, sludge from alumina production, polymer additives, complex additive - emulbit, water.

The composition is multi component and difficult to prepare.

Known patent RU №2145579 "Method of granulation of sewage sludge". The invention relates to methods of processing, in particular, the granulation of municipal and industrial sludge at sewage treatment plants. The method includes forcing a paste-like sediment through a perforated matrix.

This method is different technology and composition of sediment in sewage treatment plants.

In our proposed method, ash from the incineration of sewage sludge is used.

Known application RU 2001136046 from 08.27.2003 "Method of ash utilization", consisting in mixing 40-60% of mass of ash, 10-30% of mass of silicon-containing component of composition SiO ₂ - 50-75%, Al ₂ O ₃ - 5- 30%, Mg - 5-20%, CaO - 1-10%, 20-40 mass. % form granules, powder them with dispersed material, dry and heat the granules in two stages, the first stage takes 10-30 minutes at a temperature of 400-600 ° C, and the second stage takes 20 minutes at a temperature of 870-950 ° C. By (p. 2-5) includes the ash from the incineration of municipal household waste and sewage sludge with different ratio of components (5: 1.3: 1, etc.) .

Known application EP No. 0470948 from 12.02.1992 "Building mixture for the production of bulk materials and building components - bricks, poles, pipes, as well as the processes of its production.

The composition of the mixture: the main component - 85-100%, hydrated lime - 0-5% and water. Main component: recycled, activated household and industrial wastes (slags, incineration ashes, cogeneration ashes, brick fights in the ratio of mixture to water 1: 0.05 (1: 0.25).

Close to the proposed solution is the application for mortar, including as the main component ash from the combustion, treated with slaked lime 0-5%. This mixture includes a binder, but does not provide the required strength of the material.

The closest prototype is the patent for the invention №2471913 of the Russian Federation "Method of constructing a constructive layer of pavement based on ash from incineration of sewage sludge" dated 10.01.2013, consisting of (wt.%) 30-70 ashes and the rest natural binder treated (wt.%) 6-10 cement or fine ground quicklime with activity of at least wt.,% - 60 according to the CaO + MgO content.

In our proposed invention, an ash-based mixture is used, which is held together by a slow-hardening waste of industry - nepheline sludge, which, under the influence of the processes of compaction and moistening of the mixture, binds the dispersed ash into a monolith.

When constructing a wall of ash from the incineration of sewage sludge mixed with nepheline sludge, a new technical solution is to use only two components from industrial waste, without using organic and mineral binders. This ensures cost reduction and allows you to recycle a significant amount of waste with minimal cost.

A new technological result from the method of construction of the enclosing embankment is the use of a mixture of two wastes: industrial ash and nepheline sludge (see Table 1).

Example.

For experimental verification of the claimed method were prepared versions of the mixtures of the above components. The mixture of ash from the incineration of sewage from municipal and municipal services and nepheline sludge from alumina production was moistened with stirring until a homogeneous composition was formed. Then samples were prepared from the mixture with a diameter and height of 35 mm under a pressure of 100 atm.

The results of the comparative analysis are shown in table 1.

Disclosure of the invention.

The constructive solution of the enclosing wall from a mixture of ash from waste incineration and nepheline sludge from alumina production is presented in the form of a section in Fig. 6

The sequence of technological operations for the construction of the enclosing wall (Fig. 1) includes the layout with the vertices of the major axis (Fig. 1 pos. 1) and the vertices of the lesser axis of the ellipse (Fig. 1 pos. 2) and the access roads (Fig. 1 pos. 3) .

The first "stage" of the device of the fencing wall from a mixture of two wastes is performed sequentially with layer-by-layer dumping of the base of the future wall (Fig. 2) in the area of the main points of the ellipse pos. one.

Technological operations of creating layers from these wastes are traditional: mixing wastes, leveling, moistening and compacting using standard road-building equipment.

) на формируемые элементы ограждающей стены с крутизной откосов стены (1:1-1:0,5), что обеспечивается вяжущими свойствами предлагаемой золошламовой смеси.At the same time keeping the longitudinal slopes of congresses and entrances (not steeper than 60-90

) on the formed elements of the enclosing wall with the steepness of the slopes of the wall (1: 1-1: 0.5), which is provided by the binding properties of the proposed ash-and-slurry mixture.

The second “stage” of the inner wall of the fencing device from a mixture of two wastes is performed sequentially with a layered dumping (Fig. 4) in the area of pos. 2 - vertices of the lesser axis of the ellipse.

The third “stage” is the final formation of the enclosing wall with access roads (Fig. 4 and 5).

Figure captions:

FIG. 1: 1 - the vertices of the major axis of the ellipse; 2 - vertices of the lesser axis of the ellipse; 3 - access roads.

FIG. 2: 1 - the vertices of the major axis of the ellipse; 2 - vertices of the lesser axis of the ellipse; 3 - access roads.

FIG. 3: 1 - the vertices of the major axis of the ellipse; 2 - vertices of the lesser axis of the ellipse; 3 - access roads.

FIG. 5: 1 - the vertices of the major axis of the ellipse; 2 - access roads.

FIG. 6: 1 - ash; 2 - ring fence; 3 - ash of the old landfill.

Claims (1)

The method of ellipsoidal annular enclosing wall (embankment) at the landfill utilization of ash from the incineration of sewage sludge, which consists in pouring the wall from a mixture of ash from the incineration of sewage sludge and nepheline sludge in a ratio of components from 8: 2 to 3: 7 mixing, moistening and subsequent compaction, in a spiral-ring pattern in layers, "stages", with longitudinal slopes of the entrance / exit within 60-90, with the formation of recyclable ash inside.

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