SU1513080A1 - Method of storing waste - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydraulic engineering. The purpose of the invention is to increase the efficiency of environmental protection, simplify the work on laying and increase the number of stacked tailings in a given volume of the tailing dump. A dam 1 is erected along the perimeter of the tailing dam. Dam 2 is erected equidistantly to dam 1. At the top of the outer dam 2, ditch 3 is made along the length of the dam. On the slurry line 4 through the outlet 5 into the ditch 3 serves the tails 6 of the total fraction. The tailings are fed until the body of the dam 2 is completely clogged. Then, through the slurry pipe 4 through outlet 7 fine tails 8 are fed into the space 9 between dams 1 and 2. At the same time, along the pipeline 10 through outlet 11, the tailings 6 of the total fraction are fed and tailing 12 From tailing 12 and fine tails 8 penetrate into the body of the dam 1 and increase its watertightness. After the dams 1 and 2 are built up, the overburden 15 fills the space 9 with fine tails 8, and the tailings 12 - with tails 6. The cycle is repeated to the design mark of the dams and the tailings. 4 il.

Description

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The invention relates to hydraulic construction and can be used to construct dams with an impervious element for tailings, reservoirs and spam storages.

The purpose of the invention is to improve the efficiency of environmental protection, simplify the installation work and increase the number of laid tailings in a given volume of the tailing pond.

Fig. 1 shows the dam construction, section; in fig. 2 shows a scheme for filling the body of the outer dike with tails fed through the pulpwater; in fig. 3 is a diagram of the supply of fine tailings into the space between the dams; Fig. 4 is a dam expansion plan, section.

The method is carried out as follows.

The design contour of the tailings storage is determined. Along the perimeter of the equidistant contour of the tailings at a certain (calculated) distance from each other i of rock overburden: a nearby pit erected

15 is not less than 0.5 m from level 14. When filling a space of 9 n in height, which does not reach 1 ,, 5 m to the green dam 1 and 2, the dam 1 and 2 will be increased by rock 15 cm in height. At the same time, the bases of dams 1 and 2 are increased in the direction of space 9 (Fig. 4). When immersing the riparian rocks in space 9 into fine tails 8, the pores of the formations are filled, as a result of which a durable element with low filtration properties is formed . After building dykes 1 and 2

dykes 1 and 2 (Fig. 1): dam 1 — by bu-30 using overburden rocks 15 produces the tailing tail contour, dams — filling the space 9 with small disk 2 — equidistant to this contour with the tails 8 and filling at the same distance from the dam 1. At the top of the outer dike 2,

tailing 12 tails 6 ahead of level 16 above level 17

1 and 2 and improve their anti-filtration characteristics. At the same time, the tailstock 6 of the total fraction is fed through the slurry line 10 through the outlet 11 and the tailing dam 12 is filled. At the same time tails 6 from tailing dam 12 and fine tails 8 penetrate into the body of dam 1, making it waterproof. Level 12 of fine tailings 8 between dams 1 and 2 should be ahead of level 14 of common tailings entering tailing dump 12. A level ahead of level 13 between dams is provided not less than 0.5 m from level 14. When space 9 is filled to a height not reaching 1 ,, 5 m to the crest of the dam 1 and 2, the dam 1 and 2 with the rock height of 15 cm. At the same time, the bases of dams 1 and 2 are increased in the direction of space 9 (fig. 4). After building dykes 1 and 2

by overburden rocks 15 the space 9 is filled with finely dispersed tails 8 and the

tailing 12 tails 6 ahead of level 16 above level 17

Claims (1)

ditch 3 (figure 2) along the length of the entire dam. 35 tailings 6 are located in the tailings. Through the slurry line 4 through outlet 5 into the canal of facility 12. Pikl is repeated until the project. In 3, tails 6 of the total fractionation mark of the dams are built up and behind (waste of the processing plant), the particle size 5 10 5 -10 m in diameter, with the process following the formula 40 of the invention for clogging dam 2, the consumption of tails 6 must be such as to prevent waste storage, including overflowing edges, and laying strong soils in pkv- exit peskovoy part of the tails for pre-di tantno disposed dams and levees groundwork 2, which regulate kolichest45polnenie space therebetween feed of the console per unit of time. In the event of occurrence of a sand section and tails outside the dam, pulp flow must be reduced. The tailings are fed until the body of the dam 2 (Fig. 3) is completely collapsed, after which fine-dispersed tails 8 (also enrichment wastes) with a particle size of 5–10 are supplied through the same slurry line 4, with a ratio of liquid to solid (W: T) within 1: 1–5: 1 in space 9 between dams 1 and 2, which clog the body of dams the creation of an impervious element, characterized in that, in order to increase the efficiency of environmental protection, simplify the installation and increase the number of laid tails in a given volume of the tailings, the dams are erected from rocky rocks to a predetermined height, then at the top of the outer axis - the tailings of the dam create a ditch and feed the tails through the slurry line to complete the clogging of the body of the dam with the consumption of tails excluding the removal of solid particles from the dam. / 17 ", L - / A and 4 about yl and in and yo Phia.1 16 ff h