Flotation tank impeller

Abstract
An impeller for use with apparatus to enhance mixing of a gas and a liquid, as used for example in froth flotation apparatus, having a substantially upright portion (11) substantially parallel to the axis of rotation (17), and a plurality of vanes (12) extending outwardly therefrom, at least some of the vanes (12) having an upper part (19) adapted to induce liquid flow generally downwardly towards the impeller and a lower part (20) adapted to induce liquid flow generally upwardly towards the impeller, wherein the impeller further comprises barrier means (14) at least partially dividing the upper and lower parts, and a gas input situated on the same side of the barrier means (14) as the lower part (20). The barrier means (14) may comprise a flange like member in a plane generally perpendicular to the axis of rotation (17) and may intersect, or be integral with at least part of the vanes.
Description




FIELD OF THE INVENTION




This invention relates to an impeller primarily but not exclusively for use with apparatus adapted to enhance mixing of a gas and a liquid, as used for example in froth flotation apparatus for separation of substances.




DESCRIPTION OF THE PRIOR ART




Froth flotation is a process currently used in both mineral processing to separate required mineral particles from gangue in a mineral ore slurry and in other processing systems when a separation of one liquid type or types can be made from another liquid or liquids. The apparatus utilised comprises a tank for holding the slurry, an impeller for inducing flow of the slurry and dispersing a gas therein, a static diffuser arrangement located outwardly of the impeller and a means to introduce the gas, commonly compressed air, into the slurry.




It will be appreciated that the term “mixing” used herein should be read as relating to dispersion of a gas in a liquid, true homogeneity not necessarily being achieved by introduction of the gas into the liquid. Furthermore, the term liquid will hereinafter he used although it will be appreciated that during use of the apparatus the liquid may contain solid matter and thus constitute a slurry, and the term slurry should be understood to comprise a suspension of solid particles in a liquid in general, and not be limited to any particular mineral suspension.




The mechanism of the extraction process is known in the art, and will therefore not be described here in any great detail, although an outline of the principal when used in mineral processing is to cause the required mineral particles to adhere to bubbles of the gas, which then rise to the surface of the liquid to form a froth which is removed. A plurality of such tanks may be provided in series with the liquid passing through each in turn, such that any required minerals not extracted in a given tank may be subjected to a further extraction process in the next tank in the series, or a single tank housing a plurality of gas/liquid mixing apparatus may he provided.




SUMMARY OF THE INVENTION




It is an object of the present invention to provide an improved impeller which enhances the above mixing process and improves the efficiency of the extraction process.




According to a first aspect of the invention there is provided an impeller for rotation about a substantially upright axis for use with apparatus adapted to enhance mixing of a gas and a liquid, the impeller having a substantially upright portion substantially parallel to the axis, and a plurality of vanes extending outwardly therefrom, at least some of the vanes having an upper part adapted to induce liquid flow generally downwardly towards the impeller and a lower part adapted to induce liquid flow generally upwardly towards the impeller, wherein the impeller further comprises barrier means at least partially dividing said upper and lower parts, and a gas input situated on the same side of the barrier means as the lower part.




Preferably, the barrier means extends outwardly from the substantially upright portion.




The barrier means preferably comprises a flange-like member having upper and lower faces, at least one face of which is flat or substantially flat. Preferably the lower face is the flat or substantially flat face.




Preferably the flange-like member is substantially planar. Conveniently the flange-like member lies in a plane substantially perpendicular to the axis of rotation. The flange-like member may conveniently be disc shaped.




The substantially upright portion may comprise a cylinder-like portion wherein the vanes extend outwardly from the outer surface of the cylinder-like portion. Conveniently, the vanes extend radially outwardly from the cylinder-like portion. The vanes may be secured to the outer surface of the cylinder-like portion, or may pass partly therethrough.




The substantially upright portion preferably has at least one passage therein. Conveniently, the or each passage lies substantially parallel to the axis of rotation of the impeller.




A lower end of the substantially upright portion is preferably located below the plane of the barrier means.




Conveniently, the or each passage has an input end adapted to receive at least one gas and an output end adapted to emit the or each gas to the tank. Preferably the input end is adapted to be connected, in use, to a gas source which is at greater than atmospheric pressure.




Conveniently, the output end is situated at or near the lower end of the substantially upright portion.




As an alternative, the substantially upright portion may be substantially hollow. Preferably the substantially upright portion comprises a tube. The tube may also have an input end and an output end analogous to those described above.




Conveniently, only a part of the vanes engage the substantially upright portion.




The barrier means preferably comprises an annulus, the inner rim of which is located substantially adjacent the outer surface of the tube. Conveniently, the radius of the annulus is less than the dimension of the vanes in a radial direction. Such a direction will henceforth be referred to as the width of the vanes, and, correspondingly, the dimension perpendicular to the width, and thus parallel with the axis of rotation of the impeller, will be referred to as the height.




The upper part of the vanes preferably has a top edge and inner and outer side edges, wherein the inner side edge abuts or passes into the substantially upright portion, and wherein the outer side edge is remote from the substantially upright portion. The outer side edge of the upper part sweeps through the liquid in the tank in a rotational manner in order to induce flow of the liquid. The top edge of the vane and the outer side edge of the upper part of the vane may meet substantially at right angles to each other to define a corner of the vane.




Alternatively however, the top edge of the vane and the outer side edge of the upper part of the vane may be joined by an intermediate edge.




The intermediate edge may be generally linear, or may be of curved configuration. Preferably, the curved configuration is concave.




The lower part of the vane has a bottom edge, and inner and outer side edges. Preferably, the inner side edge is located at or near the axis of rotation. Accordingly, where there are a plurality of such vanes, the inner side edges of each preferably meet at or near the axis of rotation.




There is preferably an intermediate edge between the bottom edge and outer side edge of the lower part of the vane. Conveniently, the intermediate edge is of curved configuration suitable to induce flow of the liquid generally upwardly towards the impeller. Preferably, the curved configuration is concave.




Alternatively, the substantially upright portion may comprise a cylinder-like portion wherein the vanes extend outwardly therefrom but do not engage the outer surface of the cylinder-like portion. In such a case, the cylinder-like portion may have associated therewith a flange, henceforth referred to as a drive flange for the sake of clarity. The drive flange is preferably of annular configuration. Preferably, the barrier means is attached to or integral with the drive flange. In this alternative, the barrier means comprises a first part attached to or integral with the drive flange, and a second part extending radially outwardly from the first part.




Preferably, the second part engages at least some of the vanes. Preferably, both the first and second parts are substantially annular, having substantially flat lower faces. In this alternative, the distance between opposite inner side edges of the upper parts of the vanes is preferably greater than the diameter of the cylinder-like portion. Conveniently, said distance is greater than the diameters of both the drive flange and the first part of the barrier means. The inner side edges of the lower parts of the vanes, in this alternative, do not meet at or near the axis of rotation. There is preferably provided a central portion which engages said inner side edges.




Conveniently, the central portion comprises a cylinder, the outer surface of which engages said inner side edges. The diameter of said central portion is preferably greater than the diameter of the substantially upright portion.




It is further envisaged that there may be provided baffle means between adjacent vanes of the impeller. The baffle means may have a concave outer surface.




In an alternative arrangement, the substantially upright portion may comprise a cylinder like portion the ends of which are sealed or substantially sealed. Such a cylinder like portion may be solid. In such an arrangement, a lower end of the cylinder like portion may be attached to, or integral with, the vanes at a position below the plane of the barrier means. In this arrangement, there may be further provided an outer pipe, preferably concentric with the cylinder like portion, which does not rotate with the vanes. Preferably, gas is emitted to the impeller through the outer pipe, which has an open lower end. The lower end of the outer pipe is also preferably located below the plane of the barrier means.




According to a second aspect of the invention, there is provided a method of mixing a gas and a liquid, comprising the steps of introducing the gas to the liquid, and inducing flow of the gas and liquid to enhance mixing thereof by use of an impeller in accordance with the first aspect of the invention.











BRIEF DESCRIPTION OF THE DRAWINGS




The invention will now be described in greater detail by way of example only with reference to the accompanying drawings wherein:





FIG. 1

is a perspective view of an impeller according to the invention,





FIG. 2

is a side view of one of the vanes of the impeller and part of the barrier means,





FIG. 3

is a schematic diagram of froth flotation apparatus incorporating the impeller,





FIG. 4

is a perspective view of an alternative embodiment of the invention,





FIG. 5

is a side view of a further alternative embodiment of the invention, and





FIG. 6

is a side view of an alternative embodiment of one of the vanes and part of the barrier means.











DETAILED DESCRIPTION




Referring to

FIGS. 1

to


3


, an impeller


10


is shown comprising a substantially upright portion which in this example is a hollow tube


11


. There are provided eight outwardly extending vanes


12


which are attached to the outer surface


16


of the hollow tube by any suitable means, for example welding. The hollow tube extends approximately mid-way along the vanes in a vertical direction. There is provided near the lower end


13


of the tube


11


a flange


14


which is of annular configuration, wherein the inner rim


15


of the flange is located adjacent the outer surface


16


of the tube


11


. It will be appreciated that whilst the figures show only a section of the flange, the flange extends through 360° about the axis of rotation


17


of the impeller. The flange


14


is generally planar and the underside of the flange


18


is flat. The vanes comprise an upper portion


19


and lower portion


20


defined by upper, lower and side edges


21


,


22


,


23


and


24


respectively. As shown in

FIGS. 1

to


5


, the upper and side edges meet substantially at right angles to define a corner


25


whereas the lower and side edges are joined by a concave formation


26


formed within the vane. However, as shown in

FIG. 6

, the upper and side edges may also be joined by a concave formation


25




a


, analogous to lower concave formation


26


.




The inner side edges


23


of the vanes are provided with a recess


28


below the flange to provide a space


29


around the axis


17


. The hollow tube


11


is provided at its end remote from the impeller with gas input means (not shown) which admits gas under super atmospheric pressure to the tube


11


where the gas is emitted at its lower end


13


.




In use, the impeller shown in

FIG. 1

is incorporated in apparatus as shown in FIG.


3


. The apparatus comprises a tank


40


for containment of the liquid


41


to be mixed with the gas. The gas is introduced to the liquid through the tube


11


from a source remote from the tank (not shown). The tube


11


is rotated about the axis


17


in the direction shown by arrow A by any suitable means, for example an electric motor (also not shown). Of course, the direction of rotation could equally be the opposite of that shown by arrow A. There are provided in the tank, froth baffles


42


which serve to retain the froth


50


above each apparatus when there are more than one apparatus in a tank and to facilitate removal of the required mineral particles. The impeller


10


rotates and draws liquid towards the impeller creating flow paths as illustrated by the arrows L. The gas, usually air, is emitted to the liquid at the end of the tube


11


and is guided by the barrier means initially to a position generally indicated at


43


. Accordingly, the liquid flow path and the gas meet at the area


43


which permits of effective aeration and accordingly efficient froth production.




It will be appreciated that there may be provided more than one apparatus in a given tank, the apparatus being arranged either adjacent to each other in series along the length of a tank or in a series of individual connected tanks.




There are provided diffusers


44


in a generally circular arrangement around the impeller


10


. The diffusers serve to further mix the air and liquid, and to ensure a radial flow of air and liquid out from the impeller. The diffusers are maintained in position by webs


45


which extend downwardly at approximately 45° from a substantially cylindrical cover


46


which is attached to a support member above the tank (now shown).




The provision of the flange on the impeller significantly increases the mixing of the gas and liquid and thus improves the efficiency of froth creation and mineral extraction.





FIG. 4

illustrates an alternative embodiment of the invention. In this embodiment the impeller


10


comprises a substantially upright portion which again is a hollow tube


11


, but the diameter of which is less than that of the hollow tube shown in

FIGS. 1

,


2


and


3


. At the lower end of the tube


11


there is provided a drive flange


60


having a diameter less than the distance between opposite edges


61


of the upper parts of the vanes


12


. The barrier means


14


again comprises a flange but has a first part


62


attached to the drive flange


60


and a second part


63


extending outwardly from, and attached to, the first part. The second part


63


engages the vanes


12


in a slot-like manner and the vanes are thus held secure in relation to the hollow tube


11


. In the drawing, the drive flange


60


and first part


62


are shown as being secured together by bolts


70


although it will be appreciated that they may be attached to each other by any suitable means.




As also shown in

FIG. 1

, there is provided a space


29


about the axis


17


beneath the barrier means


14


. In this example, however, the lower parts


71


of the vanes do not meet the axis


17


but there is provided a central portion


64


in the form of a cylinder


65


having closed upper and lower surfaces


66


and


67


. It will be appreciated however that the upper and lower surfaces could alternatively be open so as to provide a hollow central portion.




Fluid flow baffles


68


are provided between the vanes


12


. The baffles have an outer concave surface.




The fluid flow baffles serve to guide liquid flow to the area


43


as shown in FIG.


3


.




Referring to

FIG. 5

, an alternative embodiment is shown wherein the substantially upright portion


80


comprises a rotatable drive shaft which is sealed at its lower end


81


and is attached to the vanes in the region generally indicated at


82


. In this arrangement, there is also provided an outer pipe


83


through which gas is passed downwardly and which is emitted to the impeller at the region generally indicated at


84


. The flange


14


is separate from the outer pipe and secured to the vanes. It will be appreciated that whilst this embodiment differs from those previously described, the desired effect of aeration is obtained in a manner substantially similar to that previously described. Furthermore, it will be appreciated that the outer pipe


83


at its upper regions may support the diffusers in substantially the same way as shown in

FIG. 3

by reference numerals


45


and


46


.




The features disclosed in the foregoing description, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately or in any combination of such features, be utilised for realising the invention in diverse forms thereof.



Claims
  • 1. An impeller for rotation about a substantially upright axis for use with flotation tank apparatus adapted to enhance mixing of a gas and a liquid, the impeller having a substantially upright portion substantially parallel to the axis, and a plurality of vanes extending outwardly therefrom, at least some of the vanes having an upper part exposed to an upper part of the flotation tank apparatus, the upper part of the vanes being adapted to induce liquid flow from the upper part of the flotation tank apparatus generally downwardly towards the impeller, said at least some of the vanes further having a lower part adapted to induce liquid flow from a lower part of the flotation tank apparatus generally upwardly towards the impeller, characterized in that the impeller further comprises barrier means at least partially separating said upper and lower parts, and a gas input situated on the same side of the barrier means as the lower part, the barrier means, in use, serving to guide gas and liquid along a lower surface thereof towards an outer edge thereof so that some gas/liquid mixing may occur between said gas input and said outer edge.
  • 2. An impeller according to claim 1 wherein the barrier means guides the gas and the liquid initially to a position generally adjacent an outer edge thereof.
  • 3. An impeller according to claim 1 wherein the barrier means comprises a flange-like member having upper and lower faces, at least one face of which is flat or substantially flat.
  • 4. An impeller according to claim 3 wherein the flange-like member is substantially planar.
  • 5. An impeller according to claim 3 wherein the flange-like member lies in a plane substantially perpendicular to the axis of rotation.
  • 6. An impeller according to claim 3 wherein the flange-like member is disc shaped.
  • 7. An impeller according to claim 4 wherein a lower end of the substantially upright portion is located below the plane of the barrier means.
  • 8. An impeller according to claim 1 wherein the substantially upright portion is substantially hollow.
  • 9. An impeller according to claim 1 wherein only a part of each vane engages the substantially upright portion.
  • 10. An impeller according to claim 1 wherein the barrier means comprises an annulus, an inner rim of which is located substantially adjacent the outer surface of the substantially upright portion.
  • 11. An impeller for rotation about a substantially upright axis for use with apparatus adapted to enhance mixing of a gas and a liquid, the impeller having a substantially upright portion substantially parallel to the axis, and a plurality of vanes extending outwardly therefrom, at least some of the vanes having an upper part adapted to induce liquid flow generally downwardly towards the impeller and a lower part adapted to induce liquid flow generally upwardly towards the impeller, characterized in that the impeller further comprises barrier means at least partially separating said upper and lower parts, and a gas input situated on the same side of the barrier means as the lower part, the barrier means, in use, serving to guide gas and liquid along a lower surface thereof towards an outer edge thereof so that some gas/liquid mixing may occur between said gas input and said outer edge, wherein the barrier means comprises an annulus, an inner rim of which is located substantially adjacent the outer surface of the substantially upright portion, and wherein the radius of the annulus is less than the dimension of the vanes in a radial direction.
  • 12. An impeller according to claim 1 wherein part of each vane has a generally concave configuration.
  • 13. An impeller according to claim 1 wherein substantially upright portion comprises a cylinder-like portion and wherein the vanes extend outwardly therefrom but do not engage the outer surface of the cylinder-like portion.
  • 14. An impeller according to claim 13 wherein the cylinder-like portion has associated therewith a drive flange, and wherein the barrier means is attached to or integral with the drive flange.
  • 15. An impeller according to claim 1 wherein there is provided baffle means between adjacent vanes of the impeller.
  • 16. An impeller for rotation about a substantially upright axis for use with apparatus adapted to enhance mixing of a gas and a liquid, the impeller having a substantially upright portion substantially parallel to the axis, and a plurality of vanes extending outwardly therefrom, at least some of the vanes having an upper part adapted to induce liquid flow generally downwardly towards the impeller and a lower part adapted to induce liquid flow generally upwardly towards the impeller, characterized in that the impeller further comprises barrier means at least partially separating said upper and lower parts, and a gas input situated on the same side of the barrier means as the lower part, the barrier means, in use, serving to guide gas and liquid along a lower surface thereof towards an outer edge thereof so that some gas/liquid mixing may occur between said gas input and said outer edge, wherein there is provided baffle means between adjacent vanes of the impeller, and wherein the baffle means have a concave outer surface.
  • 17. An impeller according to claim 13 wherein there is a provided an outer pipe, preferably concentric with the cylinder-like portion, which does not rotate with the vanes.
  • 18. An impeller according to claim 17 wherein gas is emitted to the liquid through the outer pipe, which has an open lower end.
  • 19. An impeller according to claim 18 wherein the lower end of the outer pipe is also located below the plane of the barrier means.
  • 20. A method of mixing a gas and a liquid, comprising the steps for introducing the gas to the liquid, and inducing flow of the gas and liquid to enhance mixing thereof by use of an impeller in accordance with claim 1.
  • 21. An impeller for mixing of a gas and a liquid in a flotation tank, comprising:a substantially upright portion defining a substantially upright axis of rotation, the substantially upright portion having a gas flow line extending therethrough; a plurality of vanes extending outwardly from the substantially upright portion, at least some of the vanes having an upper part which is exposed to the flotation tank and adapted to induce liquid flow generally downwardly and a lower part which is exposed to the flotation tank and adapted to induce liquid flow generally upwardly; and a barrier at least partially separating the upper and lower parts of the vanes, the barrier having a lower surface for gas/liquid mixing therealong towards an outer edge; the gas flow line terminating in a gas input to the vanes, the gas input being situated below the lower surface of the barrier, such that the barrier, in use, serves to guide gas and liquid along its lower surface towards its outer edge, so that some gas/liquid mixing may occur between said gas input and the outer edge of the barrier.
  • 22. The impeller of claim 21, wherein the barrier is an annular barrier wall extending generally perpendicular to the axis of rotation.
Priority Claims (1)
Number Date Country Kind
9516873 Aug 1995 GB
PCT Information
Filing Document Filing Date Country Kind 102e Date 371c Date
PCT/GB96/01984 WO 00 4/9/1998 4/9/1998
Publishing Document Publishing Date Country Kind
WO97/06892 2/27/1997 WO A
US Referenced Citations (5)
Number Name Date Kind
2393976 Daman Feb 1946
3882016 Green May 1975
3953151 Aryus et al. Apr 1976
4444510 Janssen Apr 1984
4692244 Supp et al. Sep 1987
Foreign Referenced Citations (3)
Number Date Country
2137332 Jun 1995 CA
0092769 A3 Nov 1983 EP
0287251 A3 Oct 1988 EP