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CA2747833A1 - Method for separating particles in hydrous slurry and a hindered-bed separator - Google Patents

Method for separating particles in hydrous slurry and a hindered-bed separator Download PDF

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Publication number
CA2747833A1
CA2747833A1 CA2747833A CA2747833A CA2747833A1 CA 2747833 A1 CA2747833 A1 CA 2747833A1 CA 2747833 A CA2747833 A CA 2747833A CA 2747833 A CA2747833 A CA 2747833A CA 2747833 A1 CA2747833 A1 CA 2747833A1
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Canada
Prior art keywords
teeter water
teeter
amount
discharging means
fluid connection
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
CA2747833A
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French (fr)
Inventor
Timo U. Niitti
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Metso Corp
Original Assignee
Outotec Oyj
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Publication of CA2747833A1 publication Critical patent/CA2747833A1/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B5/00Washing granular, powdered or lumpy materials; Wet separating
    • B03B5/62Washing granular, powdered or lumpy materials; Wet separating by hydraulic classifiers, e.g. of launder, tank, spiral or helical chute concentrator type
    • B03B5/623Upward current classifiers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B5/00Washing granular, powdered or lumpy materials; Wet separating
    • B03B5/62Washing granular, powdered or lumpy materials; Wet separating by hydraulic classifiers, e.g. of launder, tank, spiral or helical chute concentrator type
    • B03B5/66Washing granular, powdered or lumpy materials; Wet separating by hydraulic classifiers, e.g. of launder, tank, spiral or helical chute concentrator type of the hindered settling type

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  • Treatment Of Water By Ion Exchange (AREA)
  • Measuring Volume Flow (AREA)
  • Physical Water Treatments (AREA)

Abstract

The invention relates to a method for separating particles in hydrous slurry (38) and to a hindered-bed separator. The method comprises a step for connecting at least one teeter water pipe (8) of a teeter water distributor means (7) of a hindered-bed separator in fluid connection with a teeter water discharging means (10), and discharging teeter water (9) from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10).

Description

METHOD FOR SEPARATING PARTICLES IN HYDROUS SLURRY AND
A HINDERED-BED SEPARATOR

Field of the invention The invention relates to a method for separating particles in hydrous slurry as defined in the preamble of independent claim 1.
The invention also relates to a hindered-bed separator for separating particles in hydrous slurry as defined in the preamble of independent claim 14.
The present invention relates to a hindered-bed separator or hindered-bed settler or similar separator or settler apparatus (hereinafter "hindered-bed settler") to partition solid particles in a hydrous slurry or pulp into two or more fractions containing particles of different size and density.
Many sizing and classifying methods employ gravity of solid material in hydrous slurry with an incoming feed containing the material encountering an upward teeter water flow. The variation in size and/or density will result in heavier particles falling to a lower level of the hindered-bed settler and lighter particles being uplifted to an overflow level of the hindered-bed settler thus affecting the desired separation.
The operation of so called hindered-bed settlers is based on even distribution of a controlled amount of teeter water into an in inner space of the body of the hindered-bed separator with teeter water distributor means arranged in the inner space of the body of the hindered-bed separator. Usually, the teeter water is pumped into teeter pipes of the teeter water distributor means from one side only, but if the water is "dirty" and contains for example much fine solids , the teeter water pipes will get clogged because of the fine solids settling at the end of the teeter pipe where the flow velocity is lowest. Gradually this clogging then is proceeding towards the feed end of the teeter pipes and relatively soon the teeter water feed into the hindered-bed settler becomes biased and operation becomes poor. The hindered-bed settler has to be stopped for pipe cleaning meaning production losses etc. In some cases teeter water is pumped into the teeter pipes from both ends, but then the clogging starts from the middle of the teeter pipes.
Short description of the invention The aim of the invention is to solve the above-identified problem.
The method for separating particles in hydrous slurry of the invention is characterized by the definitions of independent claim 1.
Preferred embodiments of the method are defined in the dependent claims 2 to 13.
The hindered-bed separator for separating particles in hydrous slurry of the invention is correspondingly characterized by the definitions of independent claim 14.
2 PCT/F12009/051027 Preferred embodiments of the hindered-bed separator are defined in the dependent claims 15 to 26.
The invention is based on discharging part of the teeter water that is fed into the teeter water distributor means by using a teeter water discharging means that is in fluid connection with the teeter water distributor means. This means for example that a certain amount of teeter water is fed into the teeter water distributor means. This amount can for example be the double compared to the amount actually used for teetering in the hindered-bed separator, so the other half just runs through the teeter water pipes of the teeter water distributor means inside the hindered-bed separator. This way the flow speed in the teeter water pipes system is high or large enough to keep the teeter water pipes clean by transporting fine solids effectively through the teeter water pipes. This way an arrangement can be created that does not need cleaning of the teeter pipes at all or very seldom.
In a method and a hindered-bed separator somewhat dirty teeter water i.e.
teeter water containing particles can be used. The new arrangement is essentially useful in cases where dirty circulating water e.g. from the tailings pond or thickener is used. Because of environmental reasons this is nowadays the most common situation in the industry.
In the suggested system the pipes could also be cleaned, if necessary, just by increasing momentarily the flow speed of water. The opening of the unit for cleaning would then not be necessary at all.
In one embodiment of the invention both in the intake pipe for feeding teetering water to the teeter water distributor means and in the return pipe for leading teetering water from the teeter water discharging means is provided with a flow measuring means, such as a flow meter, for measuring the flow before the hindered-bed separator and respectively for measuring the flow after the hindered-bed separator. The difference in the flows naturally flows into the interior of the hindered-bed separator. In this embodiment the amount of teeter water entering the inner space of the body of the hindered-bed separator and correspondingly the amount of teeter water flowing through the inner space of the body of the hindered-bed separator can be controlled by a valve means such as an automatic valve in the return pipe.

List of figures In the following the invention will be described in more detail by referring to the figures, of which Fig 1 shows a hindered-bed separator having a teeter water distributor means, Fig 2 shows the principle of a teeter water distribution system means according to a first preferred embodiment of the invention, Fig 3 shows the principle of a teeter water distribution system means according to a second preferred embodiment of the invention,
3 PCT/F12009/051027 Fig 4 shows the principle of a teeter water distribution system means according to a third preferred embodiment of the invention, Fig 5 shows the principle of a teeter water distribution system means according to a fourth preferred embodiment of the invention Fig 6 shows the principle of a teeter water distribution system means according to a fifth preferred embodiment of the invention, Fig 7 shows the principle of a teeter water distribution system means according to a sixth preferred embodiment of the invention, Fig 8 shows the principle of a teeter water distribution system means according to a seventh preferred embodiment of the invention, and Fig 9 shows the principle of a teeter water distribution system means according to an eight preferred embodiment of the invention.

Detailed description of the invention The invention relates to a method for separating particles (not shown in the figures) in hydrous slurry 38 and to a hindered-bed separator 1 for separating particles in hydrous slurry 38.
First the method and preferred embodiments and variations thereof will be described.
The method for separating particles in hydrous slurry 38 comprises a step for using a hindered-bed separator comprising a body 2 defining an inner space 3, feed well means 4 for introducing hydrous slurry 38 into the inner space 3 of the body 2, overflow launder means 5 for discharging light particles 34 from the inner space 3 of the body 2, coarse feed means 6 for discharging heavy particles 35 from the inner space 3 of the body 2, and teeter water distributor means 7 comprising teeter water pipes 8 arranged in the inner space 3 of the body 2 for introducing teeter water 9 into the inner space 3 of the body 2.
The method includes a step for introducing hydrous slurry 38 into the inner space 3 of the body 2.
The method includes steps for feeding teeter water 9 into the teeter water distributor means 7 and introducing teeter water 9 into the inner space 3 of the body 2 by means of the teeter water distributor means 7. The amount of teeter water 9 fed into the teeter water distributor means 7 exceeds preferably, but not necessarily, the amount of teeter water 9 needed for the separation process performed in the inner space 3 of the body 2 of the hindered-bed separator. In one embodiment of the method of the invention, the method includes a step for feeding between about 110 % to about 200 %, for example between about 125 % to about 150 %, the amount of teeter water 9 into the teeter water distributor means 7 of the amount of teeter water 9 that is needed for the separation process performed in the inner space 3 of the body 2 of the hindered-bed separator 1.
The method includes a step for discharging light particles 34 from the inner space 3 of
4 PCT/F12009/051027 the body 2.
The method includes a step for discharging heavy particles 35 from the inner space 3 of the body 2.
The method includes a step for connecting at least one teeter water pipe 8 of the teeter water distributor means 7 in fluid connection with a teeter water discharging means 10.
The method includes a step for discharging teeter water 9 from the at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 to the teeter water discharging means 10.
The method includes preferably a step for connecting all teeter water pipes 8 of the teeter water distributor means 7 in fluid connection with a teeter water discharging means 10 and a step for discharging teeter water from all teeter water pipes 8 to the teeter water discharging means 10.
The method comprises in a preferable embodiment of the method using a hindered-bed separator 1 having a teeter water distributor means 7 having at least one teeter water pipe 8 that has a first end 11, which is in fluid connection with a first manifold 12 configured for receiving teeter water 9 from an intake pipe 32 and configured for distributing teeter water 9 to the at least one teeter water pipe 8 that is in fluid connection with the first manifold 12, and which has an opposite second end 13. This preferred embodiment of the method of the invention comprises a step for connecting the opposite second end 13 of the at least one teeter water pipe 8 that is in fluid connection with the first manifold 12, in fluid connection with the teeter water discharging means 10. This preferred embodiment of the method of the invention comprises preferably a step for connecting the opposite second end 13 of the at least one teeter water pipe 8 that is in fluid connection with the first manifold 12, in fluid connection with a second manifold 14 of the teeter water discharging means 10.
The method comprises in a preferable embodiment of the method using a hindered-bed separator 1 having a teeter water distributor means 7 having several teeter water pipes 8 each having a first end 11, which is in fluid connection with a first manifold 12 configured for receiving teeter water 9 from an intake pipe 32 and configured for distributing teeter water 9 to the several teeter water pipes 8 that are in fluid connection with the first manifold 12, and each of which teeter water pipes 8 has a opposite second end 13. This preferred embodiment of the method of the invention comprises a step for connecting the opposite second end 13 of each teeter water pipe 8, which are in fluid connection with the first manifold 12, in fluid connection with the teeter water discharging means 10. This preferred embodiment of the method of the invention comprises preferably a step for connecting the opposite second end 13 of each teeter water pipe 8, which are in fluid connection with the first manifold 12, in fluid connection with a second manifold 14 of the teeter water discharging means 10.
The method comprises in a preferable embodiment of the method a step for arranging a first valve means 15 to the teeter water discharging means 10 to adjust the amount of teeter water
5 PCT/F12009/051027 9 that is discharged from the teeter water discharging means 10.
The method comprises in a preferable embodiment of the method a step for arranging a first valve means 15 to the teeter water discharging means 10 to adjust the amount of teeter water 9 that is discharged from the teeter water discharging means 10. This preferable embodiment of the method includes a step for measuring by means of a first flow measuring means 17 the amount of inflowing teeter water 9 flowing into the teeter water distributor means 7 and a step for measuring by means of a second flow measuring means 19 the amount of outflowing teeter water 9 flowing from the teeter water discharging means 10. This preferable embodiment of the method includes a step for calculating the difference between the inflowing teeter water 9 and the outflowing teeter water 9, and a step for controlling the first valve means 15 in accordance with the calculated difference to adjust the flow in the teeter water discharging means 10, in other words to adjust the flow of teeter water 9 flowing through the inner space 3 of the body 2 of the hindered-bed separator 1. Figure 3 and 5 illustrates arrangements suitable for this preferred embodiment. In this preferred embodiment the amount of teeter water entering the inner space 3 of the body 2 of the hindered-bed separator 1 can also be calculated by means of the calculated difference, i.e. the amount of teeter water 9 going into the separation process can also be calculated from the calculated difference.
The method comprises in a preferable embodiment of the method a step for arranging a first valve means 15 to the teeter water discharging means 10 to adjust the amount of teeter water 9 discharged from the teeter water discharging means 10. This preferable embodiment of the method includes a step for measuring by means of a pressure measuring means 39 the pressure of inflowing teeter water 9 flowing into the teeter water distributor means 7.
This preferable embodiment of the method includes a step for controlling the first valve means 15 in accordance with the measured pressure to adjust the flow in the teeter water discharging means 10, in other words to adjust the flow of teeter water flowing through the inner space 3 of the body 2 of the hindered-bed separator. Figure 3 and 4 illustrate arrangements suitable for this preferred embodiment.
The method comprises in a preferable embodiment of the method a step for arranging a first valve means 15 in the teeter water discharging means 10 to adjust the amount of teeter water 9 discharged from the teeter water discharging means 10. This preferable embodiment of the method of the invention includes steps for controlling the first valve means 15 by means of a timer 40 for example according to a pre-set time schedule. Figure 3 and 8 illustrate arrangements suitable for this preferred embodiment.
The method comprises in a preferable embodiment of the method a step for arranging a second valve means 16 in the at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 and a step for controlling the second valve means 16 to adjust the amount of teeter water flowing from said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 into said teeter water discharging means
6 PCT/F12009/051027 10.
The method comprises in a preferable embodiment of the method of the invention a step for arranging second valve means 16 in all the teeter water pipes 8 that are in fluid connection with the teeter water discharging means 10 and a step for individually controlling the second valve means 16 to individually adjust the amount of teeter water flowing from each teeter water pipe 8 into said teeter water discharging means 10.
The method comprises in a preferable embodiment of the method a step for arranging a second valve means 16 in the at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10. This preferable embodiment of the method of the invention includes a step for measuring by means of a first flow measuring means 17 the amount of inflowing teeter water 9 flowing into said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 and a step for measuring by means of a second flow measuring means 19 the amount of outflowing teeter water 9 flowing from said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10. This preferable embodiment of the method of the invention includes a step for calculating the difference between the inflowing teeter water 9 and the outflowing teeter water 9 and a step for controlling the second valve means 16 in accordance with the calculated difference to adjust the flow in said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10, in other words to adjust the flow of teeter water flowing through the inner space 3 of the body 2 of the hindered-bed separator I in said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10.
The method comprises in a preferable embodiment of the method a step for arranging a second valve means 16 in the at least one teeter water pipe 8 that is in fluid connection with the teeter- water discharging means 10. This preferable embodiment of the method of the invention includes steps for measuring by means of a first pressure measuring means 39 the pressure of teeter water 9 flowing into said teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 and for controlling the second valve means 16 in accordance with the measured pressure to adjust the flow in said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10, in other words to adjust the flow of teeter water flowing through the inner space 3 of the body 2 of the hindered-bed separator 1 in said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10. Figure 10 illustrate an arrangement suitable for this preferred embodiment.
The method comprises in a preferable embodiment of the method a step for arranging a second valve means 16 in said at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10. This preferable embodiment of the method of the invention includes steps for controlling the second valve means 16 with a timer 40 for example in accordance with a pre-set schedule. Figure 9 illustrates an arrangement suitable for this preferred embodiment.

AMENDED SHEET (IPEA/FI)
7 PCT/F12009/051027 The method comprises in a preferable embodiment of the method a step for arranging second valve means 16 in all the teeter water pipes 8 that are in fluid connection with the teeter water discharging means 10. This preferable embodiment of the method of the invention includes a step for individually measuring the amount of inflowing teeter water 9 flowing into each teeter water pipe 8 that are in fluid connection with the teeter water discharging means 10 and a step for individually measuring the amount of teeter water 9 flowing out from each teeter water pipe 8 that are in fluid connection with the teeter water discharging means 10 into the teeter water discharging means 10. This preferable embodiment of the method of the invention includes a step for calculating the difference between the inflowing teeter water and the outflowing teeter water in each individual teeter water pipe 8 that are in fluid connection with the teeter water discharging means 10 and a step for controlling each second valve means 16 in each teeter water pipe 8 that are in fluid connection with the teeter water discharging means 10 in accordance with the calculated difference to individually adjust the flow in each teeter water pipe
8 that are in fluid connection with the teeter water discharging means 10, in other words to individually adjust the flow of teeter water 9 flowing through the inner space 3 of the body 2 of the hindered-bed separator 1 in each individual teeter water pipe 8.
The method comprises in a preferable embodiment of the method a step for arranging second valve means 16 in all teeter water pipes 8 that are in fluid connection with the teeter water discharging means 10. This preferable embodiment of the method of the invention includes a step for measuring the pressure of teeter water 9 flowing into each teeter water pipe 8 that are in fluid connection with the teeter water discharging means 10 and for individually controlling each second valve means 16 in each teeter water pipe 8 in accordance with the measured pressure to individually adjust the flow in each teeter water pipe 8 that are in fluid connection with the teeter water discharging means 10, in other words to adjust the flow of teeter water 9 flowing through the inner space 3 of the body 2 of the hindered-bed separator 1 individually in each individual teeter water pipes 8.
The method comprises in a preferable embodiment of the method a step for arranging second valve means 16 in all the teeter water pipes 8 that are in fluid connection with the teeter water discharging means 10. This preferable embodiment of the method of the invention includes a step for individually controlling each second valve means 16 in each teeter water pipe 8 with a timer 40 for example according to a pre-set time schedule.
Next the hindered-bed separator 1 for separating particles in a hydrous slurry 38 and preferred embodiments and variations of the hindered-bed separator 1 will be described.
The hindered-bed separator 1 comprises a body 2 defining an inner space 3.
The body 2 of the hindered-bed separator 1 shown in figure 1 has an upper part 21, a middle part 22, and a lower part 23 and an open top 24 and a bottom 25 defining the inner space 3 with an upper portion 26, a middle portion 27, and a lower portion 28.
A teeter water distributor means 7 comprises teeter water pipes 8 is at least partly arranged in the inner space 3 of the body 2 for introducing teeter water into the inner space 3 of the body 2 and directing water therefrom.
The teeter water distributor means 7 comprises a first manifold 12, an intake pipe 32 for introducing teeter water into the first manifold 12 and teeter water pipes 8 in fluid connection with the first manifold 12. The teeter water pipes 8 are provided with apertures 29 for discharging teeter water from the teeter water pipes 8 into the inner space 3 of the body 2.
In the figures 2 to 10 the intake pipe 32 is provided with a third valve means 37.
In figure 1 the teeter water distributor means 7 is arranged for introducing teeter water into the lower portion 28 of inner space 3 of the body 2.
The hindered-bed separator 1 comprises also a teeter water discharging means 10 that is in fluid connection with at least one teeter water pipe 8 for discharging teeter water 9 from the at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 into the teeter water discharging means 10.
The hindered-bed separator 1 comprises also a feed well means 4 for introducing hydrous slurry 38 into the inner space 3 of the body 2.
In figure 1 the feed well means 4 for introducing hydrous slurry 38 into the inner space 3 of the body 2 comprises a feed well 30 for feed material entering the hindered-bed separator I
and a slurry introducer 31 for introducing hydrous slurry 38 into the feed well 30.
The hindered-bed separator I comprises also an overflow launder means 5 for discharging light particles 34 from the inner space 3 of the body 2.
In figure I the overflow launder means 5 is arranged adjacent to the open top 24 of the body 2.
In figure 1 the overflow launder means 5 of the hindered-bed separator I
comprises also an overflow weir 36 adjacent to the open top 24 of the body 2 for providing flow containing light particles 34 from the inner space 3 of the body 2 through the open top 24 of the body 2 to the overflow launder.
The hindered-bed separator I comprises also a coarse feed means 6 for discharging heavy particles from the inner space 3 of the body 2.
In figure I the coarse feed means 6 are arranged adjacent to the bottom 25 of the body 2 .
In a preferred embodiment of the hindered-bed separator I according to the invention the teeter water discharging means 10 comprises a second manifold 14 in fluid connection with the at least one teeter water pipe 8 and a return pipe 33 for discharging teeter water from the second manifold 14. The second manifold 14 is configured for receiving teeter water from the at least one teeter water pipe 8 and for discharging teeter water into the return pipe 33. The at least one teeter water pipe 8 is preferably arranged between the first manifold 12 and the second manifold 14.
In a preferred embodiment of the hindered-bed separator 1 the teeter water discharging means 10 comprises a second manifold 14 in fluid connection with all teeter water pipes 8 of the AMENDED SHEET (IPEA/FI)
9 PCT/F12009/051027 teeter water distributor means 7 and a return pipe 33 for discharging teeter water from the second manifold 14. The second manifold 14 is configured for receiving teeter water from all teeter water pipes 8 of the teeter water distributor means 7 and for discharging teeter water into the return pipe 33. All teeter water pipes 8 of the teeter water distributor means 7 are preferably arranged between the first manifold 12 and the second manifold 14.
In a preferred embodiment of the hindered-bed separator 1, the hindered-bed separator 1 comprises and first valve means 15 in the teeter water discharging means 10 for adjusting the amount of teeter water 9 discharged from the teeter water discharging means 10 into a return pipe 33. The first valve means 15 can be arranged in the return pipe 33 as shown in figure 2.
In a preferred embodiment of the hindered-bed separator 1, the hindered-bed separator 1 comprises first flow measuring means 17 for measuring the amount of teeter water flowing from an intake pipe 32 into the teeter water distributor means 7, and second flow measuring means 19 for measuring the amount of teeter water flowing out of the inner space 3 of the body 2 via the teeter water discharging means 10 into a return pipe 33. This preferred embodiment of the hindered-bed separator 1 comprises calculating means 18 for calculating the difference between the inflowing teeter water and the outflowing teeter water, and first valve means 15 functionally connected to the calculating means 18 for adjusting the amount of outflowing teeter water in accordance with the calculated difference. In this preferred embodiment also the amount of teeter water entering the inner space 3 of the body 2 of the hindered-bed separator 1 can be calculated by means of the calculated difference, i.e. the amount of teeter water going into the separation process can also be calculated by means of the calculated difference.
In the preferred embodiment of the hindered-bed separator 1 shown in figure 3 and 4, the hindered-bed separator 1 comprises pressure measuring means 39 for measuring the pressure of teeter water flowing into the teeter water distributor means 7. In this preferred embodiment a first valve means 15 is functionally connected to the pressure measuring means 39 for adjusting the amount of teeter water flowing into the return pipe 33 in accordance with the measured pressure.
In the preferred embodiment of the hindered-bed separator 1 shown in figure 3 and 8, the hindered-bed separator 1 comprises a timer 40 functionally connected to first valve means 15 in the teeter water discharging means 10 for adjusting the amount of teeter water 9 flowing into a return pipe 33 for example in accordance with a pre-set time schedule.
In a preferred embodiment of the hindered-bed separator a second valve means 16 is arranged in at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 for adjusting the amount of teeter water 9 flowing from said at least one teeter water pipe 8 into the teeter water discharging means 10.
In a preferred embodiment of the hindered-bed separator 1 the hindered-bed separator 1 comprises first flow measuring means 17 for measuring the amount of teeter water 9 flowing into the at least one teeter water pipe 8 and second flow measuring means 19 for measuring the amount of teeter water 9 flowing out of the at least one teeter water pipe 8.
This preferred
10 PCT/F12009/051027 embodiment of the hindered-bed separator 1 comprises calculating means 18 for calculating the difference between the inflowing teeter water and the outflowing teeter water, and second valve means 16 functionally connected to the calculating means 18 for adjusting the amount of outflowing teeter water in accordance with the calculated difference.
The preferred embodiment of the hindered-bed separator 1 shown in figure 6 comprises first flow measuring means 17 for measuring the amount of inflowing teeter water flowing into each individual teeter water pipe 8 and second flow measuring means 19 for measuring the amount of outflowing teeter water flowing out of the body 2 via each individual teeter water pipe 8. This preferred embodiment of the hindered-bed separator 1 comprises calculating means 18 for calculating the difference between the inflowing teeter water and the outflowing teeter water in each teeter water pipe 8, and second valve means 16 functionally connected to the calculating means 18 for adjusting the amount of outflowing teeter water in accordance with the calculated difference in each teeter water pipe 8. For clarity reasons figure 6 is simplified so that only one teeter water pipe 8 is in figure 6 provided with a first flow measuring means 17, second flow measuring means 19, calculating means 18, and a second valve means 16.
In a preferred embodiment of the hindered-bed separator 1, the hindered-bed separator 1 comprises first flow measuring means 17 for measuring the amount of inflowing teeter water flowing into the at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10. This preferred embodiment of the hindered-bed separator 1 according to the invention comprises control means 20 for controlling that the amount of inflowing teeter water flowing into the at least one teeter water pipe 8 exceeds a pre-set value and second valve means 16 functionally connected to the control means 20 for increasing the amount of inflowing teeter water flowing into the at least one teeter water pipe 8 if the measured amount is below the pre-set value.
The preferred embodiment of the hindered-bed separator 1 shown in figure 7 comprises first flow measuring means 17 for measuring the amount of inflowing teeter water flowing into each individual teeter water pipe 8. This preferred embodiment of the hindered-bed separator 1 according to the invention comprises control means 20 for controlling that the amount of inflowing teeter water flowing into each individual teeter water pipe 8 exceeds a pre-set value and second valve means 16 functionally connected to the control means 20 for increasing the amount of inflowing teeter water flowing into each teeter water pipe 8 if the measured amount is below the pre-set value. For clarity reasons figure 7 is simplified so that only one teeter water pipe 8 is in figure 7 provided with a first flow measuring means 17, control means 20, and a second valve means 16.
In a preferred embodiment of the hindered-bed separator 1, the at least teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 comprises first pressure measuring means 39 for measuring the pressure in the teeter water flowing into the at least teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10. In this
11 PCT/F12009/051027 preferred embodiment of the hindered-bed separator 1 the first pressure measuring means 39 is functionally connected to a second valve means 16 for adjusting the amount of teeter water flowing out the at least one teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 into the teeter water discharging means 10 in accordance with the pressure measured by the first pressure measuring means 39.
In a preferred embodiment of the hindered-bed separator 1, all teeter water pipes 8 are in fluid connection with the teeter water discharging means 10 and all teeter water pipes 8 comprise first pressure measuring means 39 for measuring the pressure of the teeter water flowing into each teeter water pipe 8. In this preferred embodiment of the hindered-bed separator 1 each first pressure measuring means is functionally connected to a second valve means 16 arranged in each teeter water pipe 8 for individually adjusting the amount of teeter water flowing out of each teeter water pipe 8 into the teeter water discharging means 10 in accordance with the pressure measured by the first pressure measuring means 39.
In a preferred embodiment of the hindered-bed separator 1, the at least teeter water pipe 8 that is in fluid connection with the teeter water discharging means 10 comprises second valve means 16 for adjusting the amount of teeter water flowing out of the at least one teeter water pipe 8 into the teeter water discharging means 10 and a timer 40 that is functionally connected to the second valve means for adjusting the amount of teeter water 9 flowing into the teeter water discharging means 10 for example in accordance with a pre-set time schedule.
In a preferred embodiment of the hindered-bed separator 1, all the teeter water pipes 8 that are in fluid connection with the teeter water discharging means 10 comprise second valve means 16 for adjusting the amount of teeter water flowing out of the teeter water pipe 8 into the teeter water discharging means 10 and a timer 40 that is functionally connected to the second valve means for adjusting the amount of teeter water 9 flowing into the teeter water discharging means 10 based on a time schedule.
It is apparent to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in various ways. The invention and its embodiments are therefore not restricted to the above examples, but they may vary within the scope of the claims.
12 PCT/F12009/051027 List of reference numerals 1. Hindered-bed separator 2. Body 3. Inner space 4. Feed well means 5. Overflow launder means 6. Coarse feed means 7. Teeter water distributor means 8. Teeter water pipe 9. Teeter water 10. Teeter water discharging means 11. First end 12. First manifold
13. Opposite second end
14. Second manifold
15. First valve means
16. Second valve means
17. First flow measuring means
18. Calculating means
19. Second flow measuring means
20. Control means
21. Upper part
22. Middle part
23. Lower part
24. Open top
25. Bottom
26. Upper portion
27. Middle portion
28. Lower portion
29. Apertures
30. Feed well
31. Slurry introducer
32. Intake pipe
33. Return pipe
34. Light particles
35. Heavy particles
36. Overflow weir
37. Third valve means
38. Hydrous slurry
39. Pressure measuring means
40. Timer

Claims (26)

Claims
1 . A method for separating particles in hydrous slurry (38), which method comprises steps for using a hindered-bed separator (1) comprising a body (2) defining an inner space (3), feed well means (4) for introducing hydrous slurry (38) into the inner space (3) of the body (2), overflow launder means (5) for discharging light particles (34) from the inner space (3) of the body (2), coarse feed means (6) for discharging heavy particles (35) from the inner- space (3) of the body (2), and teeter water distributor means (7) comprising teeter water pipes (8) arranged in the inner space (3) of the body (2) for introducing teeter water (9) into the inner space (3) of the body (2), introducing hydrous slurry (38) into the inner space (3) of the body (2), feeding teeter water (9) into the teeter water distributor means (7) and introducing teeter water (9) into the inner space (3) of the body (2) by means of the teeter water distributor means (7), discharging light particles (34) from the inner space (3) of the body (2), and discharging heavy particles (35) from the inner space (3) of the body (2), characterized by connecting at least one teeter water pipe (8) of the teeter water distributor means (7) in fluid connection with a teeter water discharging means (10), discharging teeter water (9) from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10), and feeding an amount of teeter water (9) into the teeter water distributor means (7) that exceeds the amount of teeter water (9) needed for the separation process performed in the inner space (3) of the body (2) of the hindered-bed separator (1).
2. The method according to claim 1, characterized by using a hindered-bed separator (1) having a teeter water distributor means (7) having at least one teeter water pipe (8), which has a first end (11) that is in fluid connection with a first manifold (12) configured for receiving teeter water (9) from an intake pipe (32) and configured for distributing teeter water (9) to the at least one teeter water pipe (8), and which has an opposite second end (13), and connecting the opposite second end (13) of the at least one teeter water pipe (8) in fluid connection with the teeter- water discharging means (10).
3. The method according to claim 2, characterized by connecting the opposite second end (13) of the at least one teeter water pipe (8) in fluid connection with a second manifold (14) of the teeter water discharging means (10).
15 discharging teeter water (9) from the teeter water discharging means (10), and controlling the first valve means (15) to adjust the amount of teeter water (9) discharged from the teeter water discharging means (10).
5. The method according to claim 4, characterized by measuring the amount of teeter water (9) flowing into the teeter water distributor means (7) from an intake pipe (32), measuring the amount of discharged teeter water (9) discharged from the teeter water discharging means (10) into an return pipe (33), calculating the difference between the amount of teeter water (9) flowing into the teeter water distributor means (7) and the amount of teeter water (9) discharged from the teeter water discharging means (10), and controlling the first valve means (15) in accordance with the calculated difference to adjust the amount of teeter water (9) discharged from the teeter water discharging means (10).
6. The method according to claim 4 or 5, characterized by measuring the pressure of the teeter water (9) flowing into the teeter water distributor means (7), and controlling the first valve means (15) in accordance with the measured pressure to adjust the amount of teeter water (9) discharged from the teeter water discharging means (10).
7. The method according to any of the claims 4 to 6, characterized by controlling the first valve means (15) with a timer (40) to adjust the amount of teeter water (9) discharged from the teeter water discharging means (10).
8. The method according to any of the claims 1 to 7, characterized by arranging a second valve means (16) in at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10), and controlling the second valve means (16) to adjust the amount of teeter water (9) that is discharged from said at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10).
9. The method according to claim 8, characterized by measuring the amount of teeter water (9) flowing into the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10), measuring the amount of teeter water (9) discharged from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10), calculating the difference between the teeter water (9) flowing into the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) and the teeter water (9) that is discharged from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10), and controlling the second valve means (16) in accordance with the calculated difference to adjust the amount of teeter water (9) discharged from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10).
10. The method according to claim 8 or 9, characterized by measuring the pressure of teeter water (9) flowing into the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10), and controlling the second valve means (16) in accordance with the measured pressure to adjust the amount of teeter water (9) discharged from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10).
11. The method according to any of the claims 8 to 10, characterized by controlling the second valve means (16) with a timer (40) to adjust the amount of teeter water (9) discharged from the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) to the teeter water discharging means (10).
12. The method according to any of the claims 1 to 11, characterized by feeding an amount of teeter water (9) into the teeter water distributor means (7) that exceeds the amount of teeter water (9) needed for the separation process performed in the inner space (3) of the body (2) of the hindered-bed separator (1).
13. The method according to any of the claims 1 to 12, characterized by feeding between about 110 % to about 200 % the amount of teeter water (9) into the teeter water distributor means (7) of the amount of teeter water (9) that needed for the separation process performed in the inner space (3) of the body (2) of the hindered-bed separator (1).
14. A hindered-bed separator (1) for separating particles in hydrous slurry (38), the hindered-bed separator (1) comprising a body (2) defining an inner space (3), a teeter water distributor means (7) comprising teeter water pipes (8) arranged in the inner space (3) of the body (2) for introducing teeter water (9) into the inner space (3) of the body (2) and directing water therefrom, the teeter water distributor means (7) comprising a first manifold (12), an intake pipe (32) for introducing teeter water (9) into the first manifold (12), teeter water pipes (8) in fluid connection with the first manifold (12), the teeter water pipes (8) being provided with apertures (29) for discharging teeter water (9) from the teeter water pipes (8) into the inner space (3) of the body (2), a feed well means (30) for introducing hydrous slurry (38) into the inner space (3) of the body (2), an overflow launder means (5) for discharging light particles (34) from the inner space (3) of the body (2), and a coarse feed means (6) for discharging heavy particles from the inner space (3) of the body (2), characterized by at least one teeter water pipe (8) being in fluid connection with a teeter water discharging means (10) for discharging teeter water (9) from said at least one teeter water pipe (8) of the teeter water distributor means (7) into the teeter water discharging means (10).
15. The hindered-bed separator according to claim 14, characterized by the teeter water discharging means (10) comprising a second manifold (14) in fluid connection with the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) and a return pipe (33) for discharging teeter water (9) from the second manifold (14), the second manifold (14) being configured for receiving teeter water (9) from the at least one teeter water pipe (8) that is in fluid connection with a teeter water discharging means (10) and configured for discharging teeter water (9) into the return pipe (33).
16. The hindered-bed separator according to claim 15, characterized by the at least one teeter water pipe (8) being arranged between the first manifold (12) and the second manifold (14).
17. The hindered-bed separator according to any of the claims 14 to 16, characterized by a first valve means (15) arranged in the teeter water discharging means (10) for adjusting the amount of teeter water (9) discharged from the teeter water discharging means (10) into a return pipe (33).
18. The hindered-bed separator according to claim 17, characterized by first flow measuring means (17) for measuring the amount of teeter water (9) flowing into the teeter water distributor means (7) from an intake pipe (32), by second flow measuring means (19) for measuring the amount of teeter water (9) discharged from the teeter water discharging means (10) into the return pipe (33), by calculating means (18) for calculating the difference between the amount of teeter water (9) flowing into teeter water distributor means (7) and the amount of teeter water (9) discharged from the teeter water discharging means (10), and by the calculating means (18) being functionally connected to the first valve means (15) for adjusting the amount of teeter water (9) discharged from the teeter water discharging means (10) in accordance with the calculated difference.
19. The hindered-bed separator according to claim 17 or 18, characterized by pressure measuring means (39) for measuring the pressure of teeter water (9) flowing into teeter water distributor means (7), and by the pressure measuring means (39) being functionally connected to the first valve means (15) for adjusting the amount of teeter water (9) discharged from the teeter water discharging means (10) into the return pipe (33) in accordance with the measured pressure.
20. The hindered-bed separator according to any of the claims 17 to 19, characterized by the first valve means (15) being functionally connected to a timer (40) for adjusting the amount of teeter water (9) discharged from the teeter water discharging means (10) into the return pipe (33)in accordance with a time schedule.
21. The hindered-bed separator according to any of the claims 17 to 20, characterized by a second valve means (16) arranged in at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) for adjusting the amount of teeter water (9) discharged from said at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) into the teeter water discharging means (10).
22. The hindered-bed separator according to claim 21, characterized by first flow measuring means (17) for measuring the amount of teeter water (9) flowing into the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10), by second flow measuring means (19) for measuring the amount of teeter water (9) flowing out of the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) into the teeter water discharging means (10), by calculating means (18) for calculating the difference between the amount of teeter water (9) flowing into the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) and the amount of teeter water (9) flowing out of the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) into the teeter water discharging means (10), and by the second valve means (16) being functionally connected to the calculating means (18) for adjusting the amount of teeter water (9) flowing out of the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) into the teeter water discharging means (10) in accordance with the calculated difference.
23. The hindered-bed separator according to claim 21 or 22, characterized by pressure measuring means (39) for measuring the pressure of teeter water (9) flowing into the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10), and by the second valve means (16) being functionally connected to the pressure measuring means (39) for adjusting the amount of teeter water (9) flowing out of the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) into the teeter water discharging means (10) in accordance with the measured pressure.
24. The hindered-bed separator according to any of the claims 21 to 23, characterized by the second valve means (16) being functionally connected to a timer (40) for adjusting amount of teeter water (9) flowing out of the at least one teeter water pipe (8) that is in fluid connection with the teeter water discharging means (10) into the teeter water discharging means (10) in accordance with a time schedule.
25. The hindered-bed separator according to any of the claims 14 to 24, characterized by the body (2) having an upper part (21), a middle part (22), and a lower part (23) and an open top (24) and a bottom (25) defining the inner space (3) with an upper portion (26), middle portion (27), and lower portion (28), by the overflow launder means (5) being arranged adjacent to the open top (24) of the body (2), an overflow weir (36) adjacent to the open top (24) of the body (2) providing flow from the inner space (3) of the body (2) through the open top (24) of the body (2) to the overflow launder means (5), by the coarse feed means (6) being arranged adjacent to the bottom (25) of the body (2), by the teeter water distributor means (7) being arranged for introducing teeter water (9) into the lower portion (28) of inner space (3) of the body (2).
26. The hindered-bed separator according to any of the claims 14 to 25, characterized by the feed well means (30) for introducing hydrous slurry (38) into the inner space (3) of the body (2) comprising a feed well (30) for feed material entering the hindered-bed separator (1) and a slurry introducer (31) for introducing a hydrous slurry (38) into the feed well (30).
CA2747833A 2008-12-22 2009-12-22 Method for separating particles in hydrous slurry and a hindered-bed separator Abandoned CA2747833A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
FI20086227A FI121650B (en) 2008-12-22 2008-12-22 A method for separating particles in an aqueous slurry
FI20086227 2008-12-22
PCT/FI2009/051027 WO2010072901A1 (en) 2008-12-22 2009-12-22 Method for separating particles in hydrous slurry and a hindered-bed separator

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CA2747833A1 true CA2747833A1 (en) 2010-07-01

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CN (1) CN202570362U (en)
CA (1) CA2747833A1 (en)
FI (1) FI121650B (en)
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JP6142352B2 (en) * 2012-12-18 2017-06-07 日立化成株式会社 Classification device, classification method, and classification particle manufacturing method
CN109876922B (en) * 2019-04-17 2023-12-05 刘明 Grading device and grading method for realizing overflow desliming of interference bed separator
CN110180228A (en) * 2019-06-28 2019-08-30 上海化工研究院有限公司 A kind of anti-gravity formula precipitation separation device for water treatment procedure
CN112221692A (en) * 2020-10-13 2021-01-15 中煤科工集团唐山研究院有限公司 Low-grade fine-grained embedded mineral enrichment and separation device
CN113649163B (en) * 2021-07-15 2023-06-06 中煤科工集团唐山研究院有限公司 Pulse type continuous discharging device and method of interference bed separator

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US3308951A (en) * 1964-12-03 1967-03-14 Continental Oil Co Secondary hindered settling column for hydrosizers
GB2050201B (en) * 1979-05-21 1982-09-29 English Clays Lovering Pochin Process for concentrating mica
US6425485B1 (en) * 1998-03-26 2002-07-30 Eriez Magnetics Air-assisted density separator device and method
US6953123B2 (en) * 2002-06-19 2005-10-11 Outokumpu Oyj Pre-separation of feed material for hindered-bed separator

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PL2389251T3 (en) 2019-12-31
WO2010072901A1 (en) 2010-07-01
FI20086227A (en) 2010-06-23
FI20086227A0 (en) 2008-12-22
EP2389251B1 (en) 2019-07-24
EP2389251A4 (en) 2014-06-18
CN202570362U (en) 2012-12-05
EP2389251A1 (en) 2011-11-30

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