RU2465057C1 - Ore suspension separation system hydrocyclone pump unit - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to ore suspension separation at dressing and metallurgical works. Proposed unit comprises polyhydrocyclone unit with distributor, electrically driven pump unit, suction and discharge pulp pipes, sump, water supply system, two-level ACS. Every hydrocyclone includes tapered cylinder casing with intake at its top communicated with pulp distributor via feed branch pie, cover with drain branch pipe, and sand bed. Hydrocyclone casing cylinder section ID is 3.5-5.0 times larger than drain branch pipe OD. Drain branch pipe cross-section area makes 0.6-1.0 of that of feed branch pipe and is 6-25 times larger than that of sand bed outlet channel at taper angle of casing bottom making 14-18 degrees. Sump is connected with water supply system to allow changing over to pulp wash-out, while turbine pump is communicated with water supply system to allow after-outage rinsing.

EFFECT: higher efficiency and quality, power savings.

6 cl, 5 dwg

Description

The invention relates to techniques for the separation of ore suspensions by pump-hydrocyclone plants at mining and processing and metallurgical plants and can be used in the mining industry, ferrous and non-ferrous metallurgy, chemical and other industries.

Known hydrocyclone installation for mechanical cleaning of liquids with automatic removal of dehydrated sludge, including a hydrocyclone unit for cleaning liquids with inlet and outlet pipes and a channel for exiting condensed sludge, hermetically connected to the upper part with an outlet channel for condensed sludge and having a pipe for discharging dehydrated sludge in the lower conical part unloading the dehydrated sludge with a means of shutting off the branch pipe of the drainage of the dehydrated sludge and a pressure source. Additionally, the hydrocyclone installation includes a guide apparatus associated with a pressure source, and a sensitive organ for controlling the mass of the dehydrated sludge in the hopper, connected through the guide apparatus to the unloading unit of the dehydrated sludge. The unloading unit is made in the form of pneumatic or hydraulic cylinders, and the hydrocyclone unit contains two or more hydrocyclones interconnected by a mounting plate. The outlet channel of the condensed sediment is formed by discharge pipes of hydrocyclones (RU 94033625 A1, 07.27.1996).

Known hydrocyclone installation, including tanks for the source of spent liquid, 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 unit is equipped with a second stage of purification in the form of a multi-hydrocyclone with inlet, drain and sludge nozzles installed between a hydrocyclone and a clean liquid tank with inlet and outlet nozzles (RU 2244598 C1, 01/20/2005).

A known installation for grinding ore and separating fractions in 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 of the components of the installation is a control computer, into which the measured values of the current power consumption of the drive motor are introduced sa (RU 2182045 C1, 10.05.2002).

The disadvantages of the known technical solutions are the relatively increased complexity of the design of hydrocyclone units, the lack of sophisticated technological parameters and the mutual coordination of the geometry of the cross sections of the channels of hydrocyclones, namely the feed, drain pipes and sand nozzles, which determine the hydrodynamic balance of the separated flows and, consequently, increased energy consumption with insufficiently high quality fractional separation suspensions, including those containing particles of finely ground ores, magnetizations long turnaround cycle operation of said plants and systems, unresolved issues erase protection from abrasive surfaces, which determine the duration of the turnaround cycle operating systems. At the same time, increased wear of these surfaces reduces their service life and leads to operational deterioration in the quality of separation of fractions of small particles, including by increasing the imbalance of the output sections of the feed, drain and sand channels.

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 for repairs and replacement of wearing parts, improving the designs of hydrocyclones, the system of interaction of internal transport units of conditionally ground and oversized ore particles in a hydrocyclone pump.

The problem is solved in that the proposed pump-hydrocyclone installation of a system for separating ore suspensions, according to the invention, comprises a polyhydrocyclone block with a distributor, an electric pump unit consisting of at least one pulp turbopump with an electric drive, a suction and pressure pulp pipelines, a sump, a process system water supply, shut-off and control valves with actuators, sensors for monitoring pressure, process water flow in the system and the level of ore-containing su hoses - pulps in the sump, and also, preferably, a two-level automatic control and control system, including a local control and control panel and a place for an operator of the upper control system, with each hydrocyclone containing a cylinder-conical housing with a receiving chamber in the upper part, connected by a feed pipe to a distributor pulp and is equipped with a lid with a drain pipe protruding into the housing, at least for most of the height of the receiving chamber, as well as a sand nozzle, united by a lower oimennym collector with similar attachments to other hydrocyclones, with the possibility of return to regrinding the separated in poligidrotsiklonnom block oversized large particles, wherein poligidrotsiklonny unit comprises from two to fourteen hydrocyclone performance every 14 ÷ 20 m ³ / h were passed through the suspension, the inner diameter of the cylindrical body portion, determining the largest centrifugal take-off of the volumetric spiral swirl of the suspension flow, made in excess of 3.5 ÷ 5.0 times the outlet diameter of the drain pipe, and the cross sectional area of the latter is 0.6–1.0 times the cross-sectional area of the feed pipe and is 6–25 times larger than the cross-sectional area of the outlet channel of the sand nozzle at a taper angle of 14–18 degrees in the lower part of the body, and the sump is equipped with a filling pipe process water, as well as by means of an adjustable suction pulp line, is communicated at the inlet by a turbopump, which in turn is connected by a pressure pulp line with a distributor of a polyhydrocyclone unit, in addition, a sump of the tee and said slurry pipeline suction pressure line communicates with the process water system with the possibility of switching on the controlled erosion of pulp in the sump, and similar turbo pump communicates with the process water system with the possibility of flushing postostanovochnoy turbopump.

At the same time, a turbopump type pulp horizontal centrifugal pump with a capacity of 40 to 280 m ³ / h, for example, grades from PGN 40 to PGN 300, can be adopted as a pulp pump.

A pressure pipe for connecting a turbopump with a process water supply system for post-stop flushing can be equipped with a filter, a water pressure control sensor, an electrically operated shutter, preferably automatically controlled, and a water flow switch.

The supply line to the process water supply system can be endowed with a common flow meter and, at the site after the injection line is inserted, equipped with a shutter, preferably with an automatically controlled electric actuator, which can be separated from the line from the open pipe for filling the process water into the sump, while the said total flow meter is preferably communicated with a unit for collecting and analyzing current information of the automatic control and monitoring system.

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, to reproduce the data schema and equipment status data.

Each hydrocyclone can be preferably made of a prefabricated one, consisting of a set of sections with a cylindrical and conical profile of the internal volume with a round-cylindrical external configuration of the first and second of these sections, and provided with an internal lining of wear-resistant material, for example, rubber or polyurethane, while the conical part the inner profile of the body is formed by a lining made in the indicated section of variable thickness, increasing in the zone of the most intense wear separated in hydro iklone oversized coarse particle ore in the form of ore sand on the difference between the cylindrical outer and inner profiles tapered towards the sand fitting.

The technical result provided by the given set of features is to increase the efficiency and quality of separation of ore suspensions due to the relationship developed between the separation of hydrocyclones of flows of suspended suspension and their subsequent rational combination in a polyhydrocyclone unit, combining increased productivity with improved quality of separation from suspensions in conditioned hydrocyclones fractions of ores by returning substandardly large particles to the mantle by means of a developed in the invention, the ratio of diameters and cross-sectional areas of the nutrient, drain pipe and sand nozzle, as well as the hydraulic combination of the flow of unusually large particles from these nozzles by the collector of the same name with them. At the same time, the developed system for combining hydrocyclones into blocks reduces the centrifugal wear effect on abrasive working parts of hydrocyclones, which 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 pump-hydrocyclone unit.

The invention is illustrated by drawings, where:

figure 1 shows the pump-hydrocyclone installation of an automated system for the separation of ore suspension, flow chart;

figure 2 - polyhydrocyclone block with a distributor with a partial vertical section, front view;

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

figure 4 - technological layout of hydrocyclones in the block, a variant with twelve hydrocyclones, commutated with a distributor of nutrient pipes, top view;

figure 5 - hydrocyclone, front view.

The pump-hydrocyclone installation of the system for separating ore suspensions contains a polyhydrocyclone block 1 with a distributor 2, an electric pump unit consisting of at least one pulp turbopump 3 with an electric drive 4, suction and pressure pulp pipelines 5 and 6, respectively, sump 7, system 8 of the process water supply , shut-off and control valves with actuators, a pressure control sensor 9, a process water flow sensor in the system, and an ore-containing suspension level sensor 10 - pulp in the sump 7. The pump The hydrocyclone installation also preferably includes a two-level system 11 for automatic control and monitoring, including a remote control 12 for local control and monitoring and a place 13 for the operator of the upper control system.

Each hydrocyclone 14 of the polyhydrocyclone unit 1 contains a cylinder-conical housing 15 with a receiving chamber 16 in the upper part, connected by a feeding pipe 17 to a pulp distributor 2 and provided with a cover with a drain pipe 18 protruding into the housing 15, at least for a large part of the height of the receiving chamber 16 , as well as a sand nozzle 19, combined at the bottom of the collector of the same name with similar nozzles of other hydrocyclones 14, with the possibility of returning to an oversized large part separated in polyhydrocyclone block 1 ticles. Polyhydrocyclone block 1 contains from two to fourteen hydrocyclones 14 with a capacity of each 14 ÷ 20 m ³ / h of suspension passed through it. The inner diameter of the cylindrical part of the housing 15, which determines the largest centrifugal run of the volumetric spiral swirl of the suspension flow, is 3.5–5.0 times greater than the outlet diameter of the drain pipe 18, and the cross-sectional area of the drain pipe 18 is 0.6–1.0 area the cross section of the feed pipe 17 and 6 ÷ 25 times exceeds the cross-sectional area of the output channel of the sand nozzle 19 with a taper angle in the lower part of the housing 15 equal to 14 ÷ 18 degrees.

The sump 7 is equipped with a pipe for filling process water, and also through an adjustable shut-off suction slurry pipe 5, and is communicated to the inlet with a turbopump 3, which in turn is connected by a pressure slurry pipe 6 with a distributor 2 of a polyhydrocyclone block 1. The sump 7 is connected through a tee 20 and the mentioned suction slurry pipe 5 is connected a pressure pipe 21 with a process water supply system 8 with the possibility of adjustable switching to pulp erosion in the sump 7. Turbo pump 3 is similarly connected to the process water system 8 about water supply with the possibility of post-stop flushing of the turbopump 3.

A type 3 turbopump pulp horizontal centrifugal pulp pump with a capacity of 40 to 280 m ³ / h, for example, grades from PGN 40 to PGN 300, was adopted as a pulp pump.

The pressure pipe 21, intended for communication of the turbopump 3 with the process water supply system 8 for post-stop flushing, is equipped with a filter, a water pressure control sensor, an electric shutter 22, preferably automatically controlled, and a water flow switch.

The supply pressure pipe 21 of the process water supply system 8, the line 23 is endowed with a common flow meter and in the area after the injection pipe is tapped, is endowed with a shutter 24, preferably with an automatically controlled electric drive, which separates the line 23 from the open pipe for filling the process water into the sump 7. The total flow meter, preferably communicated with the unit for collecting and analyzing current information of the system 11 of automatic control and monitoring.

The two-level automatic control and control system 11 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. Seat 13 of the control system operator is equipped with devices for visualizing technological process parameters, including at least one computer, a monitor and a printer, storing the values of technological and diagnostic parameters in the database for at least twelve months and the ability to reflect the reproduction of circuit data and data about the condition of the equipment.

Each hydrocyclone 14 is preferably prefabricated, consisting of a set of sections 25 with a cylindrical and conical profile of the internal volume with a circular cylindrical external configuration of the first and second of these sections 25, and is provided with an inner lining 26 of a wear-resistant material, for example rubber or polyurethane. The conical part of the inner profile of the housing 15 is formed by a lining 26 made in the indicated section of variable thickness, increasing in the zone of the most intense wear, the oversized large particles of ore separated in the hydrocyclone 14 in the form of ore sand by the difference between the cylindrical outer and conical inner profiles towards the sand nozzle 19 .

The operation of the claimed pump-hydrocyclone installation is as follows.

The turbopump 3 is started from the local control panel 12 located at the electric pump unit, or from the position 13 of the operator of the upper-level control system. The shutter 24 is moved to the “OPEN” position with the shutter position 27 “OPEN” and the shutter position 22 “CLOSED”. Sump 7 is filled with water to the level of H _min . The beginning of the pulp supply to the sump 7 is determined at the minimum speed of the turbopump 3 according to the readings of the level 10 sensor. Bring the pump to operating speed and create the necessary pressure at the inlet to the hydrocyclones 14 of block 1.

During the operation of the separation system, the ore suspension of the turbopump 3 through the pressure pulp line 6 is fed into the hydrocyclones 14 of the block 1. The pulp enters the hydrocyclones 14 through the distributor 2. The pulp stream is accelerated in the feed pipe 17 of the hydrocyclone 14 and is fed into its cylindrical part. Further, the pulp spirally slides downward along the inner conical part of the housing 15 of the hydrocyclone 14 to the sand nozzle 19. The main part of the extracted fine fraction in the form of a suspension rises and through the drain pipe 18 is sent to other systems for water separation, drying and product accumulation. Larger fractions through the sand nozzle 19 go down to the dome.

The automatic control and monitoring system maintains two parameters constant: a constant pressure at the inlet to the hydrocyclone 14 and a predetermined level of ore suspension in the sump 7. A constant pressure is maintained by controlling the flow of water in the sump 7, and the suspension level by changing the speed of the turbopump 3.

The stop of the turbopump 3 is also carried out from the local control panel 12, located at the electric pump unit, or from the place 13 of the operator of the upper level control system.

Thus, due to the relationship developed in the invention for separating the flows of the passed suspension between the hydrocyclones and their subsequent rational combination at the outlet of the polyhydrocyclone block, the productivity is increased and the quality of the separation of conditioned ore fractions in the hydrocyclones is improved. At the same time, the developed system for combining hydrocyclones into blocks reduces the centrifugal wear effect on abrasive working parts of hydrocyclones, which 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 pump-hydrocyclone unit.

Claims (6)

1. Pump-hydrocyclone installation of a separation system for an ore suspension, characterized in that it contains a polyhydrocyclone unit with a distributor, an electric pump unit consisting of at least one pulp turbopump with an electric drive, a suction and pressure pulp pipelines, a sump, a process water supply system, a shut-off control valves with actuators, sensors for monitoring pressure, process water flow in the system and the level of ore-containing suspension - pulp in the sump, and also, prefer flaxen, a two-level automatic control and monitoring system, including a local control and control panel and an operator’s place for an upper control system, each hydrocyclone containing a cylindrical housing with a receiving chamber in the upper part, connected by a feed pipe to the pulp distributor and 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, as well as a sand nozzle, combined downward by the collector of the same name with similar nozzles other hydrocyclones, with the possibility of returning oversized large particles separated in the polyhydrocyclone block to the domino, and the polyhydrocyclone block contains from two to fourteen hydrocyclones with a capacity of each 14 ÷ 20 m ³ / h of suspension passed through it, the inner diameter of the cylindrical part of the body, which determines the largest centrifugal run volumetric spiral swirl of the suspension flow, made in 3.5 ÷ 5.0 times greater than the outlet diameter of the drain pipe, and the cross-sectional area of the last it is 0.6–1.0 times the cross-sectional area of the feed pipe and is 6–25 times larger than the cross-sectional area of the outlet channel of the sand nozzle at a taper angle of 14–18 ° in the lower part of the casing; moreover, the sump is equipped with a process water filling pipe, and also, through an adjustable overlapping suction slurry line, it is communicated to the inlet with a turbopump, which, in turn, is connected by a pressure pulp line with a distributor of a polyhydrocyclone unit, in addition, a sump through a tee and the said suction slurry line d communicates with the feed line process water system, with the possibility of switching on the controlled erosion of pulp in the sump, and similar turbo pump communicates with the process water system with the possibility of flushing postostanovochnoy turbopump. 2. The pump-hydrocyclone installation according to claim 1, characterized in that a turbopump type pulp horizontal centrifugal pump with a capacity of 40 to 280 m ³ / h, for example, grades from PGN 40 to PGN 300, is adopted as a pulp pump. 3. The pump-hydrocyclone installation according to claim 1, characterized in that the pressure pipe for connecting the turbopump with the process water supply system for post-stop flushing is equipped with a filter, a water pressure control sensor, an electric shutter, preferably automatically controlled and a water flow switch . 4. The pump-hydrocyclone installation according to claim 1, characterized in that the supply pressure pipe of the process water supply system is endowed with a common flow meter and is equipped with a shutter, preferably with an automatically controlled electric drive, that automatically adjusts the line from the open pipe of the process water in the sump, wherein said common flow meter is preferably in communication with a unit for collecting and analyzing current information of the automatic control system and control. 5. The pump-hydrocyclone installation according to claim 1, characterized in that 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 balanced operation of the said units, technological systems, and executive mechanisms, and the operator’s position of the control system is equipped with devices for visualizing the parameters of technological processes, including at least one computer, monitor and printer with saving values technological and diagnostic parameters in the database for at least twelve months and the ability to reflect, reproduce circuit data and equipment status data. 6. The pump-hydrocyclone installation according to claim 1, characterized in that each hydrocyclone is preferably prefabricated, consisting of a set of sections with a cylindrical and conical profile of the internal volume with a circular cylindrical external configuration of the first and second of these sections, and is provided with an inner lining of wear-resistant material, for example rubber or polyurethane, while the conical part of the inner profile of the body is formed by a lining made in the indicated section of variable thickness, increasing in the zone of the most its intensive wear, separated by oversized large particles of ore in the form of ore sand, separated by hydrocyclone, the difference between the cylindrical outer and conical inner profiles towards the sand nozzle.

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