RU2270340C2 - Method for ground washing in - Google Patents

Abstract

FIELD: transport building, particularly to perform mining operations in far north areas.

SUBSTANCE: method involves cutting ground in pit and supplying sludge to concentration plant; separating the sludge into concentrated and lean sludge fractions in the concentrated plant; forming deposit vessel in water pool, filling the vessel with lean fraction, wherein the vessel is isolated from concentrated ground deposit by partition dam; developing concentrated ground with jet drag heads; forming and supplying strong pulp to washing in zone; washing in ground in layers, wherein upper layer consists of concentrated draining ground, or forming above ground structure by freezing the ground in layers in winter period. To implement above method water pool bottom is deepened to design level, one or several head parts of drag head are installed on deepened water pool bottom, the head parts are covered with concentrated ground and ground deposit is formed below ice boundary of water pool. Ground is extracted from above deposit from under ice through flexible sludge pipelines during extended working season.

EFFECT: reduced unit costs for strong sludge forming and elimination of costs necessary to maintain lane above underwater ground deposit during extended working season.

2 cl, 2 dwg

Description

The invention relates to transport construction and can be used in mining mainly in areas of the Far North with a limited period of mining, when the operational productivity of the mining means exceeds the consumption of building soil or minerals (for example, due to the unavailability of the alluvion map) and the surplus of which placed in temporary warehouses of quarries.

Known methods of soil washing, including the development of soil in a quarry and the supply of pulp to an enrichment plant, separation of pulp into enriched and clarified, discharge of clarified pulp into a sedimentation tank formed in a pond, separated from the storehouse of enriched soil by a separation dam, development of enriched soils by inkjet soil sampling devices, formation and the supply of highly concentrated pulp to the site of soil washing, including in winter when washing the soil by layer-by-layer freezing (See AS No. 1572069, 1502675, 2179215, etc. )

There is also a method of washing the soil in a reservoir, including the formation of a warehouse capacity by erecting a warehouse fence, feeding soil into a warehouse capacity in the form of pulp with dividing it into enriched and clarified pulp flows (See No. 1351991, BI No. 42, 1987, p. 92 )

The disadvantages of the known methods are the low concentration of pulp formed during the surface suction of the soil of the warehouse by soil sampling devices, and the need to provide an extensive lane for the development of an underwater warehouse for an extended season of work, which requires significant additional energy costs.

The technical result of the invention is to reduce the unit cost for the formation of a highly concentrated pulp due to preliminary scrubbing with soil of the head of the soil sampling device and eliminating the costs associated with the need to maintain the lane above the underwater storage of soil when working on an extended season.

To achieve a technical result, a method of washing the soil, including developing the soil in the quarry and feeding the pulp to the concentration plant, dividing the pulp into the enriched and clarified ones, forming a storage tank in the reservoir, dumping the clarified pulp into this tank, separated from the warehouse of enriched soil by a separation dam, the development of enriched soils by inkjet soil sampling devices, the formation and supply of highly concentrated pulp to the place of lavage, layer-by-layer alluvial soil, including the upper layer I from enriched drainage soil, or winter wash-up by the method of layer-by-layer freezing, consists in the fact that, at the beginning, the bottom of the reservoir is deepened to predetermined marks, then one or several head parts of the soil sampling device are placed on its base, which are washed with enriched soil until the underwater warehouse is filled with soil, moreover, the warehouse is formed below the boundary of the formation of the ice cover of the reservoir, and the excavation of the soil at the extended work season is carried out from under the ice through flexible slurry pipelines.

In addition, in the extraction of minerals, the extraction of concentrate from the rocks is carried out by supplying the enriched slurry from the underwater storage to the final extraction plant.

Figure 1, 2 shows a diagram of the method, where the following positions are indicated: 1 - quarry; 2 - dredger; 3 - slurry pipeline; 4 - concentrator; 5 - enriched pulp; 6 - clarified pulp; 7 - a reservoir; 8 - capacity (notch); 9 - dividing dam; 10 - the head of the soil sampling device 11; 12 - enriched soil storage; 13 - water supply pump; 14 - flexible water supply; 15 - dump clay soil; 16 - flexible slurry pipeline; 17 - main slurry pipeline; 18 - alluvium map; 19 - ice cover of the quarry for an extended season of work; 20 - pulp switch.

The method is as follows.

The soil, developed in quarry 1 by a dredger 2, during periods of technological downtime, alluvial maps are fed through a slurry pipeline 3 through a pulp switch 20 to a concentration plant 4, where the pulp is divided into pulp enriched 5 and clarified 6. In a reservoir 7, a tank 8 is formed for underwater storage of enriched soil 5 Moreover, the container 8 is divided by a dam 9 to prevent dilution of the enriched soil 5 with clay soils 6, and the head part 10 of the soil-collecting device 11 is placed on the lower point of the container 8. Next with enriched soil 5, the head part 10 of the soil sampling device 11 is washed and a warehouse 12 is formed, and the clarified hydro-mixture containing clay soils is dumped into dump 15. The soil is excavated from warehouse 12, it is lifted to the surface and hydrotransported in the form of pulp to the installation site by feeding in the head part 10 of the soil intake device 11 of high pressure water. Water is supplied by pump 13 through a flexible water supply 14 connected to the head part 10. The pulp formed in the head part 10 is then fed through the flexible slurry pipe 16 to the surface and then through the main slurry pipe 17 to the alluvial map 18. In the extended season of work, excavation is carried out from the warehouse under ice 19. In the method, various types of jet pumps can be used as the head part 10 of the soil sampling device 11: hydraulic elevators, vortex jet pumps; injectors, etc.

In the extraction (including by-product extraction) of minerals, the extraction of the concentrate is carried out by feeding the enriched slurry from the warehouse 12 to an industrial processing plant (not shown).

Thanks to the use of the method, it becomes possible to increase the period of alluvial work in the difficult climatic conditions of the Far North, increase the productivity of mining and reduce specific energy consumption.

Claims (2)

1. The method of washing the soil, including the development of soil in the quarry and the supply of pulp to the concentration plant, on it the separation of the pulp into enriched and clarified, the formation of a storage tank in a reservoir, the discharge of clarified pulp into this tank, separated from the warehouse of enriched soil by a separation dam, the development of enriched of soils by jet soil sampling devices, the formation and supply of highly concentrated pulp to the place of lavage, layer-by-layer alluvial soil, including the alluvial top layer from enriched drainage soil or winter wash-up by the method of layer-by-layer freezing, characterized in that at first the bottom of the reservoir is deepened to predetermined marks, then one or several head parts of the soil sampling device are placed on its base, which are washed with enriched soil until the underwater warehouse is filled with soil, and the warehouse is formed below the ice formation boundary cover of the reservoir, and excavation from the warehouse for an extended season of work is carried out from under the ice through flexible slurry pipelines. 2. The method according to claim 1, characterized in that in the extraction of minerals, the extraction of the concentrate from the rocks is carried out by supplying the enriched slurry from the underwater storage to the final extraction plant.

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