AU666362B2 - Separating, thickening or dewatering a solid/liquid mixture - Google Patents

Separating, thickening or dewatering a solid/liquid mixture Download PDF

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Publication number
AU666362B2
AU666362B2 AU38199/93A AU3819993A AU666362B2 AU 666362 B2 AU666362 B2 AU 666362B2 AU 38199/93 A AU38199/93 A AU 38199/93A AU 3819993 A AU3819993 A AU 3819993A AU 666362 B2 AU666362 B2 AU 666362B2
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AU
Australia
Prior art keywords
rotor
chamber
main body
rotation
feed inlet
Prior art date
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.)
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Application number
AU38199/93A
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AU3819993A (en
Inventor
Warwick Nash Wood
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Weir Minerals Australia Ltd
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Warman International Ltd
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Priority to AU38199/93A priority Critical patent/AU666362B2/en
Priority claimed from PCT/AU1993/000159 external-priority patent/WO1993020946A1/en
Publication of AU3819993A publication Critical patent/AU3819993A/en
Application granted granted Critical
Publication of AU666362B2 publication Critical patent/AU666362B2/en
Assigned to WEIR WARMAN LTD reassignment WEIR WARMAN LTD Request to Amend Deed and Register Assignors: WARMAN INTERNATIONAL LIMITED
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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  • Centrifugal Separators (AREA)
  • Solid-Sorbent Or Filter-Aiding Compositions (AREA)
  • Treatment Of Sludge (AREA)

Description

I r OPI DATE 18/11/93 AOJP DATE 27/01/94 APPLN. ID 38199/93 PCT NUMBER PCT/AU93/00159 III I IIllll AU9338 111199 1111111 II AU9338199 IN 1bKNA IUNAL APPLICA lUN IUBiLISHIED UNDEK THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 5 (11) International Publication Number: WO 93/20946 B04B 5/00, 5/02, 5/12 Al (43) International Publication Date: 28 October 1993 (28.10.93) (21) International Application Number: PCT/AU93/00159 (81) Designated States: AT, AU, BB, BG, BR, CA, CH, CZ, DE, DK, ES, FI, GB, HU, JP, KP, KR, KZ, LK, LU, (22) International Filing Date: 8 April 1993 (08.04.93) MG, MN, MW, NL, NO, NZ, PL, PT, RO, RU, SD, SE, SK, UA, US, VN, European patent (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, MC, NL, PT, SE), Priority data: OAPI patent (BF, BJ, CF, CG, CI, CM, GA, GN, ML, PL 1857 10 April 1992 (10.04.92) AU MR, NE, SN, TD, TG).
(71) Applicant (for all designated States except US): WARMAN Published INTERNATIONAL LIMITED [AU/AU]; 1 Marden With international search report.
Street, Artarmon, NSW 2064 (AU).
(72) Inventor; and Inventor/Applicant (for US only) WOOD, Warwick, Nash [AU/AU]; 14 Robecq Avenue, Cheltenham, NSW 2119 666362 (74)Agent: SMEETON, Anthony, Richard; Davies Collison Cave, Level 10, 10 Barrack Street, Sydney, NSW 2000
(AU).
(54) Title: APPARATUS FOR SEPARATING MATERIALS 12 (57) Abstract Material separating apparatus comprising a rotatable main body (13) and a rotatable rotor (14) disposed within the main body. The rotor (14) comprises first and second end walls (16, 17) spaced apart from one another with a rotor chamber theiebetween, with a plurality of generally radially extending blades (18) extending between the first and second end walls thereby separating the rotor chamber into a plurality of sub-chambers. A feed inlet chamber is disposed between the main body and the first and wall. The end walls have a circumferential clearance for permitting the flow of material into and the discharge of the heavier component out of the rotor chamber. A generally centrally disposed discharge is in communication with the rotor chamber for discharging the lighter component from the rotor chamber.
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s ii 1 WO 93/20946 PCT/AU93/00159 APPARATUS FOR SEPARATING MATERIALS The present invention relates apparatus for separating materials such as thickening or dewatering apparatus and to a method of separating, thickening or dewatering a solids/liquid mixture, such as a slurry.
Many industries such as 1,ining, water treatment and pollution control produce slurries which need to be thickened or dewatered for either further treatment or disposal as waste.
Dewatering of slurries can be divided up into three types of processes. These are as follows: gravity separation; mechanical using vacuum, pressure filters and centrifuges; and thermal.
SEach increasing level of dewatering results in a higher unit cost of solids treated.
Conventionally slurries are thickened in large circular thickener tanks (see Figure 1) where the solids are introduced so as to provide a "top entry" path A and allowed to settle by gravity, often with the use of flocculating agents, to tht bottom of the tank where they are withdrawn, with the clarified fluids being drawn off the surface periphery usually by surface weirs.
A development of this process has occurred over the past two decades with the utilization of sludge blanket or submerged feed entry A into the thickener (see Figure 2).
This process has increased in utilization by the recent development of high molecular weight flocculants, which have resulted in the reduction of up to 75% in the surface area of the thickener.
These treated slurries can then be fed to more expensive treatment,,suc as centrifuges, filtration orI WO 93/20946 2 PCT/AU93/00159 thermal means. However, because of cost limitationssome slurries are only treated by gravity means.
Centrifuges are generally as shown in Figure 3.
Normally, flocculated feed is introduced into the centrifuge by a "top entry" path through a region of high shear. This region of high shear requires high usage of flocculant at considerable expense. Top entry of the feed, as in conventional thickeners, utilizes none of the sludge blanket effect and hence, as in conventional tank thickeners, requires a larger residence time to achieve the required results.
Current centrifuges are primarily designed to process solids, with little consideration being given to the flow of the liquor or centrate, which is required to follow a very convoluted path through the scroll to the liquid outlet in the form of a weir This system results in increased turbulence and interaction between the centrate and the settled solids; relying on the high centrifugal forces created by the machine to produce acceptable separation.
The present invention seeks to alleviate one or more of the aforementioned disadvantages.
According to one aspect of the present invention there is provided apparatus for separating materials into a heavier component and a lighter component comprising: a main body a rotor disposed within said main body, said rotor and I said main body being rotatable about axes of rotation; said rotor comprising: first and second end walls spaced apart from one another with a rotor chamber therebetween, and a plurality of generally radially extending blades extending between said first and second end walls and separating said rotor chamber into a plurality of sub-chambers; a feed inlet chamber between said main body and said 1 Ilii• WO 93/20946 PCI/AU93/00159 3 -i first end wall; said first and second end walls having a circumferential clearance for permitting the flow of material into and the discharge of the heavier component out of the rotor chamber; and a generally centrally disposed discharge in communication with the rotor chamber for discharging the lighter component from the rotor chamber.
The apparatus may further include transfer means for enabling flow of material through the rotor chamber.
In one form the rotor and the main body are caused to rotate at different speeds and the transfer means may comprise a generally helicall.y or spirally shaped strip or band operatively connected to either the rotor or the main body so that relative rotation between the rotor and main body causes transfer of the material by the strip through the rotor chamber.
Preferably, the flow of the lighter and heavier components is co-current.
The main body may, in one form, comprise a generally cylindrically shaped member mounted for rotation with the rotor being co-axially disposed therein and capable of relative rotation thereto. I
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A feed inlet for delivering material to the feed inlet jchamber may be provided with the feed inlet being centrally disposed with respect to the feed inlet chamber.
Preferably, the feed inlet chamber includes a plurality of generally radially extending blades therein mounted for rotation within the feed inlet chamber.
The apparatus may further include an outlet chamber Sbetween the second end wall of the rotor and the main body 7> and a discharge outlet pipe having its open end disposed to~,twards the periphery of the outlet chamber for discharging r 0-7 -4the heavier component from the apparatus. In one preferred form a discharge orifice is provided in a partition wal within the outlet chamber between the second end wall and the discharge pipe, the partition wall being mounted for rotation with the main body.
According t( .mother aspect of the present invention there is provided a method of separating material into a heavier component and a lighter component the method comprising the steps of: feeding material to a rotatable rotor disposed within a rotatable main body, the rotor forming a series of sub-chambers, the material being fed to the rotor through a clearance between the rotor and the main body; causing rotation of the rotor so separate material within the sub-chambers into lighter and heavier components; transferring the heavier component through the sub-chambers from an inlet end to an outlet end; and discharging the lighter and heavier components from the sub-chambers, According to yet another aspect of the present invention there is provided an external barrel; and t a rotor adapted to rotate about an axis of rotation within said barrel; wherein asaid rotor comprises: a first radially extending disc; a a second radially extending disc located axially remote from said first radially extending disc; and a plurality of substantially radially extending blades extending longitudinally a between the said first and second discs, said rotor and said external barrel defining a feed inlet chamber between said first disc and a first end of said barrel, and a thickening chamber between said first and second discs and wherein said discs each have a circumferential clearance to allow, in use, flow from said feed inlet chamber to said thickening chamber and flow of thickened solids from said thickening chamber to be discharged external of the thickening device, said second disc has a central discharge in communication with said thickening chamber to convey centrate external of the thickening device.
p:\wpdocs\wls\spccle\524872.spe 1. In yet another form the invention comprises a metho do thickening or dewatering solids, comprising the steps of: rotating, about an axis of rotation within a chamber having a feed end and an axially displaced discharge end, a rotor, said rotor comprising substantially radial blades extending substantially axially therealong between said inlet end and said outlet end; feeding a slurry to be thickened or dewatered around the periphery of said rotor at the feed end of said chamber into a sludge blanket formed in said chamber by the rotation of said rotor; and causing said thickened or dewatered slurry to travel from said feed end to said discharge end along or adjacent the circumference of said rotor, to be discharged from said chamber adjacent the circumference of said rotor, while said liquor separated form said thickened or dewatered slurry discharges from a central axially located outlet in said discharge end of said chamber.
Preferred embodiments of the present invention will now be described with reference to the accompanying figures in which: iFigure 1 is a schematic view of a conventional thickener tank; Figure 2 is a schematic view of a modified form of the conventional thickener a t tank; Figure 3 is a schematic view of a conventional centrifuge; Figure 4 illustrated schematically the concept of the present invention; Figure 5 illustrated one form of a rotor in accordance with one embodiment of the present invention; I Figure 6 illustrates the rotor of figure 5 with a ribbon scroll affixed thereto; t t,,t It Figure 7 illustrates, in a schematic cut-away, one embodiment of the present invention; l' Figure 8 is a sectional side elevation of a partition wall having a discharge orifice therein which forms part of the apparatus; and Figure 9 is a front elevation of the partition wall shown in Figure 8.
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g WO 93/20946 6 PCr/AU93/00159 The apparatus and method according to a preferred form of the present invention utilizes the advantages of applying higher than gravity forces in combination with sludge blanket (submerged feed entry) technology to the thickening, separation and classification of slurries in individual chambers, all of which are rotating.
The concept of the present invention is shown in Figure 4 in which a segment of slurry flocculant treated or otherwise is rotated about the axis producing a centrifugal force which separates the thickened solids from 4 the clarified liquid forming a sludge blanket having a distinct interface (10) therebetween. The feed (11) is fed into the sludge blanket at the periphery of the segment The solids are compacted by the centrifugal force and the liquor percolates towards the axis of rotation (7) where it is discharged. The thickened or compacted solids are moved along the circumference (outside) of the segment, to be discharged.
Apparatus or a thickener according to one embodiment of the present invention is illustrated in Figures 5 to 7. The apparatus (12) comprises a barrel (13) which is as shown cylindrical in shape, but could be any suitable shape such as frustoconical, and is supported on bearings (21).
A rotor (14) is supported on bearings (15) for rotation I within the barrel and is as shown in Figures 5 and 6.
The rotor (14) rotates at a slightly different RPM to that of the barrel (13) A differential of one RPM could be adequate.
The rotor (14) comprises two radially extending end walls or discs, the first being a feed disc (16) and the second the discharge disc Joining the two discs (16) and (17) are a plurality of radial blades (18) which can extend from the periphery of the discs (16) and (17) to the axis of rotation. Preferably a clearance is provided i i WO 93/20946 PCT/AU93/00159 -7between the blades (18) near the axis of rotation to provide a common path for the discharge of the centrate. The blades (18) provide individual chambers in which settlement under increase centrifugal gravity will take place with minimised effects Notational shear.
The feed is fed through a central feed pipe (19) into a chamber formed by the feed disc (16) and the end wall of the barrel Vanes (22) extend radially from the feed pipe The feed disc (16) has a clearance at its periphery from the barrel (13) whereby the feed enters the "thickening chamber" containing the blades The dimensions of the disc (16) and vanes (22) are chosen so as to minimise shear being imported to the agglomerating feed.
In the thickening chamber a sludge blanket (23) is formed by the solids being compacted by the centrifugal force against the periphery of the chamber with the liquor or centrate percolating towards the axis of rotation.
Transfer means in the form of a generally helical ribbon scroll (24) or band is connected to the outer diameter of the radial blades The narrow ribbon scroll (24) being helical continuously moves along the bottom of the bed of settling solids, ensuring the movement of both coarse particles and slurry towards the discharge end, with minimal shear. This eature differs significantly from conventional centrifuges as shown in Figure 3, where a full depth scroll (30) pushes all settled material to the solids discharge (31) and hence produces a high degree of shear to those agglomerated particles. The heavier component of the material is discharged through a clearance at the periphery of disc 17.
The apparatus may further include a discharge orifice formed in a partition wall 41 which is in the form of a plate and is for rotation with the barrel 13. The partition wall 41 is disposed between end wall or discharge disc 17 and the discharge pipe 27 which is described in more r t' WO 93/20946 PCT/AU93/00159 detail hereinafter. The discharge orifice is located at the periphery of the partition wall 41 and is adapted to rotate relative to the rotor 14 as a result of relative rotation between the barrel 13 and rotor 14. The partition wall 41 includes a central opening 43 through which the central part of the rotor 14 passes. Mounting flangeskare provided on the periphery of the wall to permit it to be bolted to the barrel 13. The relative rotation between the discharge orifice 40 and the discharge pipe 27 permits a balanced discharge from each of the sub-chambers.
The above combination of features of the embodiments of the present invention, together with the flow of solids and liquor being co-current rather than counter-current as in many conventional centrifuges ensures minimum shear and disturbance to the settling of the solids The centrate or lighter component is discharged through the hollow shaft (25) of the rotor A circular weir (26) can be installed at the discharge point.
As shown in Figures 5 to 7, the apparatus is set up to discharge the heavier component in a slurry form. A discharge pipe (27) is located beyond the discharge disc (17) and extends to the axis of the rotor for rotation therewith and along the axis of rotation past the central discharge point to a rotating joint and thence to discharge via a'variable speed positive displacement pump if required. In another arrangement air may be fed into pipe (27) externally of the apparatus to assist in freer flow.
If the apparatus is used to discharge solids cake, a conical scroll discharge similar in principle to the existing centrifuge designs (see Figure 3) would be required.
The scroll would extend from the discharge disc, collecting the solids from the ribbon scroll. The conical scroll would continue as a deeper ribbon scroll so as to allow low density slurry to flow back down the conical i; j WO 93/20946 PCT/AU93/00159 9 scroll into the region of high centrifugal force settling.
As shown, two sampling tubes (28) and (29) can be provided as part of the rotor (14) to monitor the sludge blanket level within the thickener The tubes (28) and (29) would be passed through the rotor discharge disc (17) to external sampling collection stations.
The orientation of the apparatus is not critical, and as such the axis of rotation may be horizontal, vertical or at an angle.
Variations and modifications can be made to the above described apparatus without departing from the scope and spirit of the present invention.
Si i

Claims (11)

1. Apparatus for separating materials .nto a heavier component and a lighter component comprising: a main body a rotor disposed within said main body, said rotor and said main body being rotatable about axes of rotation; said rotor comprising: first and second end walls spaced apart from one another with a rotor chamber therebetween, and a plurality of generally radially extending blades extending between said first and second end walls and separating said rotor chamber into a plurality of sub-chambers; a feed inlet chamber between said main body and said first end wall; said first and second end walls having a circumferential clearance for permitting the flow of material into and the discharge of the heavier component out of the rotor chamber; and a generally centrally disposed discharge in i i communication with the rotor chamber for discharging the i lighter component from the i.tor chamber. I
2. Apparatus according to claim 1 including transfer mineans for enabling flow of material through the rotor chamber.
3. Apparatus according to claim 2 wherein said rotor and said main body are caused to rotate at different speeds and said transfer means comprises a generally helicably or spirally shaped strip operatively connected to either the rotor or the main body so that relative rotation between the rotor and main body causes transfer of the material by the strip through the rotor chamber.
4. Apparatus according to any preceding claim wherein the Sflow of the lighter' and heavier components is co-current.
Apparatus according to any preceding claim wherein said main body comprises a generally cylindrically shaped member mounted for rotation with said rotor being co-axially disposed therein and capable of relative rotation thereto.
6. Apparatus according to any preceding claim further including a feed inlet for delivering material to said feed inlet chamber said feed inlet being centrally disposed with respect to the feed inlet chamber.
7, Apparatus according to any preceding claim wherein said feed inlet chamber includes a plurality of generally radially extending blades therein mounted for rotation within said feed inlet cham~ber.
8. Apparatus according to mny preceding claim further including an outlet chamber between said second wall of said rotor and said main body and a discharge outlet pipe having an open end thereof disposed towards the periphery of said outlet chamber for discharging the heavier component from apparatus.
9. Apparatus according to claim 8 further including a discharge orifice in a partition wall disposed with said outlet charnber between said second wall and said discharge outlet pipe, said partition wall being mounted for rotation with said main body. A method of separating material into a heavier component and a lighter component K' the method comprising the steps of: feeding material to a rotatable rotor disposed within a rotatable main body, the rotor forming a series of sub-chambers, the material being fed to the rotor through a4 clearance between the rotor and the mnain body; causing rotation of the rotor so separate material within the sub-chambers into lighter and heavier components; 1 4 t A ttransferring the heavier component through the sub- hambers from- an inlet end to an outlet end; and discharging the lighter and heavier components from the sub-chambers. 4 aU U U11. Apparatus substantially as herein described with reference to the accompanying cdrawings.
DATED this 12th day of SEPTEMBER 1995 WARMAN INTERNATIONAL LIMITED By Its Patent Attorneys DAVIES COLLISON CAVE 4 ~p Awpdocs\wIs\spccIc\524872 .sp a WO 93/20946 WO 9320946PCr/AU93/00159 12
11. Apparatus substantially as herein described with reference to the accompanying drawings. I 1
AU38199/93A 1992-04-10 1993-04-08 Separating, thickening or dewatering a solid/liquid mixture Ceased AU666362B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU38199/93A AU666362B2 (en) 1992-04-10 1993-04-08 Separating, thickening or dewatering a solid/liquid mixture

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
AUPL1857 1992-04-10
AUPL185792 1992-04-10
AU38199/93A AU666362B2 (en) 1992-04-10 1993-04-08 Separating, thickening or dewatering a solid/liquid mixture
PCT/AU1993/000159 WO1993020946A1 (en) 1992-04-10 1993-04-08 Apparatus for separating materials

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AU3819993A AU3819993A (en) 1993-11-18
AU666362B2 true AU666362B2 (en) 1996-02-08

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3861584A (en) * 1973-06-20 1975-01-21 Donaldson Co Inc Self-purging centrifuge
US4162978A (en) * 1977-09-19 1979-07-31 Alfa-Laval Ab Separator
US4332349A (en) * 1979-08-14 1982-06-01 Erno Raumfahrttechnick Gmbh Centrifuge

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3861584A (en) * 1973-06-20 1975-01-21 Donaldson Co Inc Self-purging centrifuge
US4162978A (en) * 1977-09-19 1979-07-31 Alfa-Laval Ab Separator
US4332349A (en) * 1979-08-14 1982-06-01 Erno Raumfahrttechnick Gmbh Centrifuge

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