RU2464102C1 - Ore suspension separation complex - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to selective separation of ore suspensions. Proposed complex comprises unit of hydraulic cyclones with control valves, electrically driven pump, suction and pressure pump lines, coarse ore feed conveyor, ore fine grinder, selective classifier, sump, service water supply system, control valves and automatic control system. Every hydraulic cyclone is shaped to tapered cylinder housing with intake chamber at its top communicated via feed branch pipe with pulp distributor and provided with colder with drain branch pipe and sand bed communicated, at its bottom, via sand manifold, with similar beds of other cyclones. Ore fine grinder inlet is communicated with coarse ore intake while its outlet is communicated wit selective classifier having two outlet ducts, one being connected with sump and another one being communicated with grinder. Sump is communicated via T-joint and suction pulp line with pressure pipeline of water supply system to switch over to pulp wash-out in sump while turbo pump is communicated with turbo delivery pump.

EFFECT: higher efficiency and quality of separation, power savings, perfected design.

5 cl, 5 dwg

Description

The invention relates to techniques for fractional separation of ore suspensions, and in particular to technological complexes of systems for separating ore suspensions at mining and processing and metallurgical plants, and can be used in the mining industry, ferrous and non-ferrous metallurgy, chemical and other industries.

A known installation for grinding and fractionation of ore on hydrocyclones, containing a pump driven by an electric motor, preferably a centrifugal pump, for supplying a volumetric flow to a predetermined height, a motor control device for adjusting the rotation speed of the pump drive motor and connected to a motor control device and many other components parts of the installation control computer, into which the measured values of the current power consumption of the drive motor are introduced Ca (RU 2182045 C1, 05/10/2002).

Known technological complex containing a hydrocyclone installation, including tanks for the source fluid, sludge product and clean liquid, a hydrocyclone with inlet, drain and sludge pipes, a pump for supplying the source fluid to the hydrocyclone, an injector. The installation of the complex is equipped with a second stage of purification in the form of a multi-hydrocyclone with inlet, discharge and sludge nozzles installed between the hydrocyclone and the tank of clean liquid with inlet and outlet nozzles (RU 2244598 C1, 01/20/2005).

The disadvantages of the known technical solutions are the relatively increased complexity of the design and interconnection of aggregates of grinding systems, internal technological transport of dry and wet streams and fractional separation of ore suspensions, as well as process control systems, maintenance of operational parameters and maintenance of aggregates, which does not create conditions for reducing energy consumption, increasing the duration of the overhaul periods of operation of these units and during long-term operation and II does not ensure the maintenance of the proper quality of fraction separation and the necessary hydrodynamic balance of the operation of hydrocyclones.

The problem solved by the invention is to increase the efficiency and quality of the separation of ore suspensions into fractions while reducing energy consumption, as well as to increase the stability and duration of work without stopping to repair and replace wear parts, improve the design of hydrocyclones, the system of interaction of grinding units and internal transport of conditionally ground and oversized ore particles in the technological complex.

The problem is solved in that the proposed technological complex of the system for separating ore suspensions according to the invention comprises a hydrocyclone block with a distributor, an electric pump unit consisting of a pulp turbine pump and an electric drive, suction and pressure pulp pipelines, coarse ore conveyor, fine ore mill, fractional classifier, sump pump , process water supply system, shut-off and control valves with actuators, pressure monitoring sensors, ra the process water in the system and the level of the ore-containing suspension - pulp in the sump, and also, preferably, a two-level automatic control and monitoring system, including a local control and control panel, units for collecting, evaluating information from sensors and generating commands for starting, stopping, maintaining balanced the operation of the mentioned units, technological systems and actuators and the place of the operator of the upper control system, equipped with devices for visualizing the parameters of technological processes, etc. and each hydrocyclone contains a cylinder-conical housing with a receiving chamber in the upper part connected by a feed pipe to the pulp distributor, provided with a cover with a drain pipe protruding into the housing at least for a large part of the height of the receiving chamber, and a sand nozzle united by a lower collector of the same name with similar nozzles of other hydrocyclones with the possibility of returning to the milling mill to the fine grinding mill of oversized large particles separated in the hydrocyclone, moreover, the fine mill the maul, in turn, is connected at the input to the coarse ore receiver and at the output, to a fractional classifier having two output channels, one of which is communicated by the finely divided ore fraction with a sump, and the other is recirculated with the mill to return the unmilled fraction of large particles , the sump is equipped with an open pipe for supplying process water and communicated with a regulated overlapping suction pulp line to the inlet with a turbopump, which in turn is connected with a pressure pulp line ohm with the distributor of the hydrocyclone block, in addition, the sump through the tee and the mentioned suction slurry pipe is connected to the pressure pipe of the process water supply with the possibility of adjustable switching to the washing of the pulp in the sump, and the turbopump is regulatedly connected to the same pressure pipe with the possibility of post-stop washing of the turbopump.

At the same time, a turbopump type pulp horizontal centrifugal pump with a capacity of 20 to 2500 m ³ / h, for example, grades from PGN 20 to PGN 2500, can be adopted as a pulp pump.

A two-level automatic control and monitoring system can be equipped with blocks for collecting, evaluating information from sensors and generating commands for starting, stopping, maintaining balanced operation of the mentioned units, technological systems and actuators, and the operator’s operator’s place is equipped with visualization devices for technological process parameters , including at least one computer, monitor and printer, while maintaining the values of technological and diagnostic parameters in b See data for at least twelve months and the ability to reflect and reproduce the data schema processing facility and equipment status data.

Each hydrocyclone, designed with a variant capacity for separating ore suspensions from 20 to 400 m ³ / h or more, can be preferably prefabricated, consisting of sections in the form of height-conjugated rotation bodies with the number of intermediate cylindrical sections in addition to a cylindrical receiving chamber from zero to two and conical - from one to three, and is equipped with an internal lining of wear-resistant material, such as rubber or polyurethane.

Each hydrocyclone can be preferably made prefabricated, consisting of a set of sections with a cylindrical and conical profile of at least internal volume, while the hydrocyclone with a capacity for separating ore suspensions up to 20 m ³ / h is made with a circular cylindrical external configuration of all sections from the receiving chamber to the sand nozzle and is provided with an inner lining of wear-resistant material, for example rubber or polyurethane, and the conical part of the inner profile of the body is formed by a lining made on The indicated section is of variable thickness, which increases in the zone of the most intense wear by oversized large ore particles separated in the hydrocyclone - ore sand towards the sand nozzle by the difference between the cylindrical outer and conical inner profiles of the hydrocyclone.

The technical result provided by the given set of features consists in increasing the efficiency and quality of separation of ore suspensions due to the relationship developed in the invention for technological refinement of grinding, primary fractional classification and subsequent separation of conditioned ore fractions from suspensions in hydrocyclones with recirculating return of substandard large particles to the mill to the mill fine grinding. At the same time, the developed system for combining hydrocyclones into blocks with dividing the total block productivity between them reduces the centrifugal wear effect on abrasive working parts of hydrocyclones, leads to a longer preservation of design parameters, improving the quality of ore separation in operation, increasing the productivity and duration of the overhaul operation of the technological complex.

The invention is illustrated by drawings, where:

figure 1 shows the technological complex of the separation system of ore suspensions, the technological scheme;

figure 2 is a block of hydrocyclones with a distributor, front view;

figure 3 - technological layout of hydrocyclones in the block, an option with two hydrocyclones, commutated with a distributor of nutrient pipes, top view;

figure 4 - hydrocyclone with a capacity of up to 20 m ³ / h, front view;

figure 5 - hydrocyclone with a capacity of from 20 to 400 m ³ / h or more, front view.

The technological complex of the ore slurry separation system contains a hydrocyclone block 1 with a distributor 2, an electric pump unit consisting of a pulp turbopump 3 and an electric drive, suction and pressure pulp pipelines 4 and 5, respectively, a coarse ore conveyor 6, an ore fine grinding mill 7, and a fractional classifier 8, sump 9, process water supply system 10, shut-off and control valves with actuators, pressure control sensor 11, process water flow sensor in the system and an ore-containing slurry level sensor 12 — pulp in the sump 9. The technological complex also preferably contains a two-level automatic control and monitoring system (not shown in the drawings), including a local control and control panel, units for collecting, evaluating information from sensors and generating commands for start-up, shutdown, maintenance of the balanced operation of the mentioned units, technological systems and actuators and the place of the operator of the upper control system, equipped with visualization devices in technological processes.

Each hydrocyclone 1 contains a cylinder-conical housing 13 with a receiving chamber 14 in the upper part connected by a feed pipe 15 to a pulp distributor 2, provided with a cover with a drain pipe 16 protruding into the housing 13, at least for a large part of the height of the receiving chamber 14, and sand nozzle 17, combined at the bottom by the collector of the same name 18 with similar nozzles of other hydrocyclones 1 with the possibility of returning to the mill grinding mill 7 fine grinding of oversized large particles separated in hydrocyclone 1. The fine grinding mill 7, in turn, is connected at the input to the coarse ore receiver 19 and at the output to the fractional classifier 8 having two output channels 20, 21. Channel 20 the fractional classifier 8 is communicated by the finely divided ore fraction with a sump 9, and channel 21 recirculated with said mill 7 to return the unmilled fraction of large particles. The sump 9 is equipped with a pipe 22 for the open supply of process water and is communicated with a regulated overlapping suction slurry line 4 to the inlet with a turbopump 3, which in turn is connected by a pressure slurry line 5 with a distributor 2 of the hydrocyclone unit 1. The sump 9 is connected via a tee 23 and the said suction slurry pipe 4 with a pressure head the pipeline 24 of the system 10 process water supply with the possibility of adjustable switching to the erosion of the pulp in the sump 9. The turbopump 3 is regulated in communication with a similar pressure pipe 24 s POSSIBILITY postostanovochnoy washing 3 turbopump.

As a pulp pump 3, a turbopump type horizontal pulp centrifugal pump with a capacity of 20 to 2500 m ³ / h, for example, grades from PGN 20 to PGN 2500, is adopted.

The two-level automatic control and monitoring system is equipped with blocks for collecting, evaluating information from sensors and generating commands for starting, stopping, and maintaining the balanced operation of the said units, technological systems, and actuators. The operator’s place of the control system is equipped with devices for visualizing the parameters of technological processes, including at least one computer, a monitor and a printer with storing the values of technological and diagnostic parameters in the database for at least twelve months and the ability to reflect and reproduce data from the technological complex and equipment status data.

Each hydrocyclone 1, designed with a variant capacity for separating ore suspensions from 20 to 400 m ³ / h or more, is preferably made up of an assembly consisting of sections 25 in the form of height-conjugated rotation bodies with the number of intermediate cylindrical sections in addition to a cylindrical receiving chamber from zero to two and conical - from one to three, and is equipped with an inner lining 26 of wear-resistant material, such as rubber or polyurethane.

Each hydrocyclone 1 is preferably made prefabricated, consisting of a set of sections 25 with a cylindrical and conical profile of at least an internal volume. The hydrocyclone 1 with a capacity of separation of ore suspensions up to 20 m ³ / h is made with a round-cylindrical external configuration of all sections from the receiving chamber 14 to the sand nozzle 17 and is equipped with an inner lining 26 of a wear-resistant material, such as rubber or polyurethane. The conical part of the inner profile of the casing 13 is formed by a lining 26 made in the indicated section of variable thickness, increasing in the zone of the most intense wear by oversized large ore particles separated in the hydrocyclone 1 - ore sand towards the sand nozzle 17 by the difference between the cylindrical outer and conical inner profiles of the hydrocyclone one.

The technological complex operates as follows.

Coarse ore is fed into the ore suspension suspension separation system through a conveyor 6. Further, the ore enters the mill 7 of finely ground ore and from there into the fractional classifier 8. From the fractional classifier, unrefined fractions of large ore particles are fed through the channel 21 to the mill into the mill 7, and finely ground fractions ore through channel 20 enters the sump 9. From the sump 9, the ore suspension of the turbopump 3 through the slurry pipelines 4 and 5 is fed to the hydrocyclone block 1.

The pulp enters the hydrocyclone 1 through the distributor 2. The pulp stream is accelerated in the feed pipe 15 of the hydrocyclone 1 and is fed into its cylindrical part. Next, the pulp slides down the inner conical part of the housing 13 of the hydrocyclone 1 to the sand nozzle 17. The main part of the extracted finely dispersed fraction in the form of a suspension rises and through the drain pipe 16 is sent to other technological systems. Larger fractions, through the sand nozzle 17 along the collector 18, go down to the domol in the mill 7.

The automatic control and monitoring system maintains two parameters constant: a constant pressure at the inlet to the hydrocyclone 1 and a predetermined level of ore suspension in the sump 9. A constant pressure is maintained by controlling the flow of water in the sump 9, and the suspension level by changing the speed of the turbopump 3.

When the supply of ore suspension to the sump 9 changes, the liquid level in the sump 9 changes. In accordance with the magnitude of the change in the suspension level in the sump 9, the speed of the turbopump 3 increases (or decreases), thereby increasing (or lowering) the pressure at the inlet to the hydrocyclone 1.

With a decrease in pressure below a predetermined (or increase over a predetermined), the amount of water supplied to the sump 9 increases (or decreases) in accordance with the magnitude of the pressure change. The level of ore suspension in sump 9 increases (or decreases), the speed of turbopump 3 increases (or decreases) and the pressure at the inlet to hydrocyclone 1 is restored.

The start and stop of the turbopump 3 is carried out from the local control panel located at the turbopump 3, or from the operator’s position of the upper level control system.

At the end of the operation, the turbopump 3 is washed through a tee 23 of the process water supply system 10.

Thus, due to the relationship developed in the invention for technological refinement of grinding, primary fractional classification, and subsequent separation of conditioned ore fractions from suspensions in hydrocyclones with the recirculation return of substandard large particles to a milling mill to a fine grinding mill, the efficiency and quality of separation of ore suspensions increases.

Claims (5)

1. Technological complex for separating ore suspensions, characterized in that it contains a hydrocyclone block with a slurry distributor in the form of pulp, an electric pump unit consisting of a pulp turbopump and an electric drive, suction and pressure pulp pipelines, coarse ore conveyor, fine ore mill, fractional classifier, sumpf, process water supply system, shut-off and control valves with actuators, pressure monitoring sensors, process water flow sensors the said system and the pulp level in the sump, and preferably a two-level automatic control and monitoring system, including a local control and control panel, units for collecting, evaluating information from sensors and generating commands for starting, stopping, maintaining balanced operation of the said units, technological systems and actuators and the operator’s position of the upper control system, equipped with devices for visualizing the parameters of technological processes, with each hydrocyclone containing cylindrical The housing with the receiving chamber in the upper part, connected by a feed pipe to the pulp distributor, is equipped with a cover with a drain pipe protruding inside the housing at least to a large part of the height of the receiving chamber, and a sand nozzle combined downward by a sand collector with sand nozzles of other hydrocyclones with the possibility of returning to the grinding mill in the fine grinding mill of oversized coarse particles separated in the hydrocyclone, the fine grinding mill being connected at the input to the coarse ore receiver and at the outlet with a fractional classifier having two output channels, one of which is communicated by the finely divided ore fraction with a sump, and the other is recirculated with the mill to return the unmilled fraction of large particles, the sump being equipped with an open pipe for supplying process water and regulated a blocked suction slurry line to the inlet with a turbopump, which is connected by a pressure slurry line with a pulp distributor, the sump through a tee and the said suction The slurry piping is in communication with the pressure piping of the process water supply with the possibility of adjustable switching to washing the pulp in the sump, and the turbopump is regulated in communication with a similar pressure piping with the possibility of post-stop washing of the turbopump. 2. The technological complex according to claim 1, characterized in that, as a pulp pump, it contains a turbopump type horizontal pulp centrifugal pump with a capacity of 20 to 2500 m ³ / h, for example, grades from PGN 20 to PGN 2500. 3. The technological complex according to claim 1, characterized in that the automatic control and monitoring system is equipped with blocks for collecting and evaluating information from sensors and generating commands for starting, stopping, maintaining the balanced operation of the said units, technological systems and actuators, and the system operator’s place The control is equipped with devices for visualizing the parameters of technological processes, including at least one computer, a monitor and a printer with preservation of technological and diagnostic values. parameters in the database for at least twelve months and the ability to reflect and reproduce the data of the technological complex scheme and data on the condition of the equipment. 4. The technological complex according to claim 1, characterized in that each hydrocyclone has a capacity for separating ore suspensions from 20 to 400 m ³ / h or more and is preferably made prefabricated, consisting of sections in the form of bodies of revolution mated in height with the number of intermediate cylindrical sections without a cylindrical receiving chamber, up to two, and conical from one to three and equipped with an inner lining of wear-resistant material, such as rubber or polyurethane. 5. The technological complex according to claim 1, characterized in that each hydrocyclone is preferably prefabricated, consisting of a set of sections with a cylindrical and conical profile, while the hydrocyclone with a capacity for separating ore suspensions of up to 20 m ³ / h is made with a circular cylindrical external configuration all sections from the receiving chamber to the sand nozzle and is equipped with an inner lining of wear-resistant material in the form of rubber or polyurethane, and the conical part of the inner profile of the housing is formed by a lining made in the indicated section of variable thickness, which increases in the zone of the most intense wear by oversized large ore particles separated in the hydrocyclone in the form of ore sand towards the sand nozzle by the difference between the cylindrical outer and conical inner profiles of the hydrocyclone.

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