Patent Grant
7473394
This application is the US national phase of international application PCT/ZA2003/000132 filed 12 Sep. 2003, which designated the U.S. and claims priority to ZA 02/9262, filed 14 Nov. 2002, the entire contents of each of which are hereby incorporated by reference.
This invention relates to a separating vessel particularly suitable for, but not limited to, use in mineral sample analysis.
In the field of fire assaying, mineral samples are mixed with a flux in a reaction vessel and fused to form a molten flux and molten collector material which collects a metal to be assayed. In conventional fire assay methods, the flux and collector material are caused to solidify and thereafter separated mechanically.
It is accordingly an object of the present invention to provide a novel separating vessel suitable for separating molten slag from a molten collector material in a mineral sample analysis method such as a fire assay process.
According to the invention a separating vessel suitable for use in a mineral sample treatment method wherein a molten slag is separated from a molten collector material, comprises a container defining an interior cavity for receiving the molten materials, an outlet aperture leading from the interior cavity to the exterior of the container, and a separating surface associated with the outlet aperture which is shaped to cause droplets of flux to be carried along such surface, while droplets of collector material drip off such surface by the force of gravity.
In a preferred arrangement the separating surface is a downwardly directed concave surface. Such concave surface is preferably concentrically arranged relative to the outlet aperture.
Further according to the arrangement, the outlet aperture has dimensions such that the collector material passes through the aperture under the force of gravity, while the molten flux material is substantially prevented from passing through the outlet aperture.
Thus with the above arrangement, the majority of molten flux will be arrested at the outlet aperture, but a small portion which may pass through the outlet aperture, will be separated from the collector material by the separating surface. This could for example take place where the outlet aperture is gradually enlarged through use.
In a preferred arranged the outlet aperture will be disposed at low level in the interior cavity, and a slag outlet will be provided in the container spaced vertically upwardly from the outlet aperture, the arrangement being one wherein molten slag which overlies the collector material in the molten state will drain from the slag outlet during the process of draining the collector material through the outlet aperture. Molten slag which ultimately remains in the separating vessel after removal of the collector material can be removed from the vessel for example by tilting or inverting the vessel.
Also included separately within the scope of the invention is a method of separating molten collector material from molten slag suitable for use in the treatment of a mineral sample comprising the steps of:
Further according to the invention the method includes the step of draining slag through the slag outlet. Preferably, slag will drain through the outlet during or prior to draining the collector material through the outlet aperture.
The invention is further described in the preferred embodiment described hereunder purely by way of example with reference to the accompanying drawings wherein:
Referring to the drawings, the invention provides a novel separating vessel 10 for separating molten slag 11 from molten collector material 12 for example in a fire assay process.
The separating vessel 10 comprises a container having an interior receiving zone 13 for the molten materials 11, 12, as shown in
The vessel 10 of the invention further includes a low level outlet aperture 14 which is of a relatively small diameter, and will permit the collector material 12 to drain through such aperture 14 by gravity, while the molten slag 11 will substantially be prevented from passing through the aperture 14 as a result of the higher viscosity and/or lower density of the molten slag 11.
It is a feature of the invention that a separation surface 15 is provided on the exterior of the container 10 in the zone of the outlet aperture 14, such separation surface 15 being adapted to separate any molten slag 11a which may trickle through the outlet aperture 14, from the molten collector material 12a,
In the arrangement illustrated, this separating surface 15 is in the form of a concave surface which is concentrically arranged relative to the axis of the outlet aperture 14. It has been found that with the arrangement of the invention, molten slag droplets 11a tend to cling to the concave surface 15, and are carried laterally away from the outlet aperture 14 ultimately to gather at a rim 15a of the concave surface from which they drop downwardly under the force of gravity,
In the arrangement illustrated, the molten collector material 12a is collected in a collection vessel 17, while the molten slap drops 11a are transported laterally beyond the collection vessel 17 for separate collection.
A further feature of the invention comprises an intermediate outlet 16 for molten slag 11 in the side wall of the container 10 in a position spaced vertically upwardly from the outlet aperture 14 for collector material 12. The purpose of this intermediate slag outlet 16 is to drain the majority of molten slag 11 from the separating container while the molten collector material 12 is being drained through the outlet aperture 14. The relatively small portion of slag 11 which ultimately remains in the separation vessel 10 after draining of the collector material 12 can thus readily be removed from the container 10 by inversion thereof, or tilting thereof, not shown.
Thus in use, for example in a fire assay process for determining the concentration of PGM's (Platinum Group Metals) in an ore sample, such ore sample will be comminuted and mixed with a flux material, and introduced into a reaction vessel. The flux will be caused to fuse to produce a molten slag and a molten collector material such as lead, silver, etc, which acts to collect the PGM's. The molten mixture is then introduced into the separating vessel 10 of the invention in order to separate the molten collector material 12 from the molten slag 11 as described above. In certain cases the separating vessel 10 of the invention could also act as the reaction vessel.
It has been found that with the method described above, sufficient and effective separation of the molten slag 11 and molten collector material 12 can be achieved to enable further analysis of the collector material 12 and entrained PGM's.
Doubtless many variations are possible without departing from the principles set out in the consistory clauses. Thus, the separation surface 15 could for example merely comprise a surface which is angled to the vertical in a single plane or in several planes whereby molten slag drops 11a are carried transversely away from outlet duct 14 for separate collection. Alternatively, the separation surface 15 could be could be conical.
| Number | Date | Country | Kind |
|---|---|---|---|
| 02/9262 | Nov 2002 | ZA | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/ZA03/00132 | 9/12/2003 | WO | 00 | 12/6/2005 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2004/044578 | 5/27/2004 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 777725 | Fox | Dec 1904 | A |
| 3516478 | Dunn et al. | Jun 1970 | A |
| 4769066 | Eidem | Sep 1988 | A |
| 6074598 | Koffron | Jun 2000 | A |
| Number | Date | Country |
|---|---|---|
| 695 996 | Sep 1967 | BE |
| 0204919 | Jan 2002 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20060170139 A1 | Aug 2006 | US |
