US763260A - Separation of the metallic constituents of ores from gangue. - Google Patents

Description

A.. o 9 ....1 .M 2 E N U Tu D E T N E T A P A. E. GATTERMOLE. SEPARATION 0F THE METALLIC GONSTITUENTS OF ORBS FROM A(JrAN'GUE.

APPLICATION FILED JAN. 2. 1904.

N0 MODEL.

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ws Norms vzYaRs es, Pnmaumo, wAsmNs UNITED STATES Patented June 21, 1904.Y

PATENT OEEICE.

SEPARATION OF THE METALLIC CONSTITUENTS 0F ORES FROM GANGUE.

SPECIFICATION forming part of Letters Patent No. 763,260, dated June 21, 1904.

Original application filed September 28, 1903, Serial No. 174,947. Divided and this application led January 2, 1904. Serial No. 187,599. (No specimens.)

lTo cir/ZZ whom it may concern:

Be it known that I, ARTHUR EDWARD OAT- TERMOLE, a subject of the King of England, residing at Highgate, London, England, have invented certain new and useful Improvements in the Separation of the Metallic Con-l stituents of Ores from Gangue, of which the following is a specification.

This application is a division of my application filed September 28, 1903, Serial No. 174,947.

The present inventionrelates to improvements in the separation of the metalliferous constituents of ores and the like from gangue coat the particles of Inetalliferous matter inV preference to the particles of gangue, while the particles of gangue will be wetted by the water; second, if the water be made alkaline and an emulsifying agent, such as soap, be present, the selective action of the oil will be rendered more marked and decisive; third, if the proportion of oil is kept within reasonably low limits (diering in diierent cases, according to the nature of the mineral to be treated and the consistency and nature of the oil) and if the mixture of water, oil, metalliferous. particles, and gangue be thoroughly agitated, the metalliferous particles which have become coated with oil will adhere together and form granules, which granules, partly by reason of gravity or partly on account of their bulk as compared with the individual grains of gangue, Will oifer ready means for separation in an upcurrent-separator, a jig, or other similar appliance. This action is facilitated if the oil before addition to the. liquor is brought into the condition of an emulsion in water containing a small percentage of free soap.

In some cases the pulp may contain mineral acid. Alkali must then be added in suiicient quantity to neutralize the acid and to leave some alkaline soap undecomposed-that is, free.

These facts are utilized for the purpose of separating the metalliferous constituents from the gangue of the ore in the following manner: In a suitable apparatus, an example of which will be hereinafter described, the ground or pulped ore is caused to be violently agitated, as by a revolving stirrer, in a mixture of Water and oil, the' liquor containing au alkaline emulsifying agent. As the agitation proceeds the particles of metalliferous matter agglomerate together and may be observed in the form of granules, the size of which will depend, among other things,upon the percentage of oil used. This granulation of the metalliferous constituents of the ore affords the means by which at a later stage of the process it is possible to separate the metalliferous material from the gangue, as will be hereinafter particularly described. In practicev a continuous process is used-that is to say, water, ground ore, or pulp and oil, preferably emulsified, are continuously fed into a series of vessels and the products of the agitation are continuously fed into an upcurrent-separator or jig or similar device, which in the case of the upcurrent-separator separates the metalliferous granules from the gangue by allowing them to fall -to the bottom of the vessel and to be carried away by a downward stream,while the particles of gangue are carried away by an upward stream.

The accompanying drawing is a diagram illustrating in sectional View one means of carrying out the process according Vto this invention.

A series of connected mixing vessels A A2 A3 A4 A5 A" are provided with stirrers B, rotated from driving-shafts BC Crushed ore from a hopper O and circuit-Water from a tank D are introduced into the iirst vessels AQ and oil or emulsion is fed from a tank E, through pipes E E2 E3, to the various vessels. The mixture is vigorously agitated to break up and emulsify the oil and to bring about inwater tank H.

timate contact of the divided oil with the metalliferous mineral particlcs and of the oiled particles with each other. An alkaline emulsifying agent, such as soap, is introduced into one o'r more of the vessels from a tank F, having discharge-pipes F3 F4 F5 F. It is found under these conditions that the metalliferous mineral particles abstract the oil and become coated with a thin oily film which is insufficient to materially lessen their specific gravity and that under agitation such slightlyoiled particles adhere, nucleate, and agglomerate into small more or less rounded masses or granules disseminated throughout the mass of gangue, which remains free and practically devoid of oil. After agitation to a certain extent (in four vessels, as illustrated, for example) the mixture is passed. into an upcurrent-classifier Gr, which is supplied with a stream of circuit-water from a tank H through a pipe Hf. As the granules remain specifically heavier than the gaugue or can by suitably adjusting the amount of oil and the agitation be obtained of a size larger than that of the gangue particles, the granules, with a certain amount of heavy sands, sink to the bottom and are discharged through a pipe Gf into vessel A, while the lighter sands are carried away by the upward current and discharged through outlet (fr2 to a light-sands tank J, from which the circuit-Water may be returned by a pump J to the feed-tank AD for reuse. In order to separate the granules from the heavy sands, the mixture is subjected to further agitation in thc vessels A5 A6 and is then passed into a second classifier K, from which the granules are removed at the bottom by the pipe K into the metalliferous-mineral tank L, while the heavy sands are discharged from the upper pipe K2 into a heavy-sands tank M. The circuit-water from the tanks L and M is returned by a pump N' to the feed- This apparatus is illustrated only as one convenient method of carrying out this invention, and it is to be understood that its nature and arrangement can be considerably varied.

The water throughout the circuit is alkaline and contains a suitable proportion of soap or other emulsifying agent. The agitation vessels may be separate, with arrangements for charging and discharging, the charging with pulp and the addition of oil or cmulsified oil and the agitation and discharge successively in the series of vessels being so timed that the output of treated ore is kept continuous and constant. The classifiers used may be jigs, shaking-tables, or the like or sizing apparatus whereby the comparatively larger mineral granules may be separated from the finer gangue, and one or more classifiers may be employed.

The proportion of oil used depends upon its viscosity, the fineness of the ore, and other factors, and the consistency and size of the mineral granules desired. The more oil used the larger, softer, .and less numerous the granules. Vith, say, ten per cent. of oil to the weight of metalliferous mineral a few pasty masses of oil agglomerated metalliferous mineral matter will generally result. Oil in excess of this may cause all the granules to coalesce into one soft mass. Usually an amount of oil varying from four per cent. to six per cent. of the weight of metalliferous mineral matter present in the ore yields granules of suitable size,consistency,and specific gravity for ready separation from the gangue in the upcurrent or other apparatus used for classification.

The amount of emulsifying agent, if used to form the oil-emulsion, depends upon the viscosity and nature of the oil. When soap is employed,an amount varying from three per cent. to five per cent. of the Weight of oil usually suffices, this being dissolved in, say, ten times its weight of water. F or emulsification a low alkalinity of the emulsifying agent is generally best.

. The oil used may be animal, vegetable, or mineral oil, or mixtures of these, or such coal or wood tar productsor other substances which exercise, like oils, a preferential physical afHnity for metallic mineral matter as distinguished from gangue.

The emulsifying agent may be any substance capable of holding the oil in a fine state of division in suspension in Water Without acting on the mineral matter or preventing the action of the oil-for example, soap, alkaline cresylates, or other substances solutions of which in Water froth on agitation. The emulsifying agent appears to have a decided effect in bringing about the granulation as described. In some cases, as with wood-tar and some coaltar products, these when agitated in weak alkaline solutions provide their own emulsifying agents, soluble resinates, cresylates, &c., being thereby formed, which emulsify the bulk of the tar or product.

Emulsification in some cases, as with the heavier residuum oils or tars, may be assisted by first mixing therewith a small amount of fatty oil or fatty acid. Preferably one emulsifying agent is employed throughout thc process.

In order to recover the oil from the granules after their separation from the gangue, they may be agitated with the emulsifying agent in a stronger or more active condition or proportion than was used in the emulsification of the oils initially, and the action of this emulsifying agent in stripping the oil from the metalliferous mineral particles may be aided by attrition. The strengthening of the emulsifying agent may be effected by increasing the proportion of the agent or of the alkaline base in solution, or both, the percentage strength of the solution needed depending upon the oil used and the nature of the metalliferous mineral matter with which it is IOC IIO

associated. Usually if oleicsoap is employed and caustic potash amounts varying' from onequarter of one per cent. to three per cent. or four per cent. of one or the other in solution sufces, the less readily emulsified oils, as the residuum oils, requiring the larger amounts. The removed oil is obtained as a dilute emulsion, which on standing some time separates. The cream or concentrated emulsion may then be used for making fresh emulsion for treating' fresh ore. To hasten this separation of cream, mechanical 'devices' may be employed.

Generally with wet crushed ore removal of the bulk of the water for reuse in the mill is necessary. In such case the pulp is settled and the wet ore only fed into the agitators, emulsifying agent of suitable strength being added to thin them. The circuit of such liquids can thus be kept distinct from that of the mill-water, suitable arrangements being made for settling the mineral-depleted sands and slime and for addition of emulsifying agent and fresh water as required from time to time.

In certain cases, as where but little mineral is present in the ore, to increase the nucleating or granulating factor pulverized mineral matter obtained in a previous operation or other matter having an aflinity for oil from a different source may be introduced into the ore, or a portion of already granulated and separated mineral matter may be returned to maintain the necessary amount of mineral in the ore under treatment.

In carrying out the process the ore may be roughly sized into two or more parts, which are then treated separately. With certain ores it may be preferable to use in some stages of the process a rolling form of agitation, as in cylinders or barrels, to obtain good granulation of the mineral.

It is preferable to use circuit-waters of varying degree of alkalinity, according to the nature of the mineral being treated, provided always that about one-half of one per cent. of soap or other emulsifying agent is present.

It is found advisable to keep the amount of free alkali low in proportion to the free soap present when such is the emulsifying agent used. Thus in one example 0.25 per cent. of free soap with 0.025 per cent. of free alkali was suflicient to keep calcite free from oil, 0.3 per cent. free soap and 0.03 per cent. free alkali kept quartz free from oil, while rather stronger solutionsMas, for instance, 0.5 per cent. free soap and 0.05 per cent. free alkaliprevented garnet from becoming oil-coated. These figures refer to cases where a light oil was used-namely, paraflin. When the free soap was increased to about one per cent. or when the free alkali was increased to about one-fourth of one per cent., difficulty was found in ag'glornerating certain metalliferous substances, such as rosin-blende and iron or copper pyrites.V Care must therefore be taken that neither the soap nor the alkali is in excess of that required for preventing agglomeration of the gangue.

I am aware that the selective action of oils and the like on metallic matter has been made the basis of previous processes for separating the metalliferous constituents of ores from gangue. For example, oil has been used to float o metalliferous mineral from ore-pulp, and its use has also been proposed to form a pasty mass of crushed ore from which the g'angue could afterward be washed out by means of water, and I do not claim the employment of oil in any such manner.

WhatI claim as my invention, and desire to secure by Letters Patent, is-

l. The herein-described process of separating metalliferous matter from gangue, which consists in agitating a mixture of powdered ore and water with oil in emulsion in water containing an alkaline emulsifying agent, so as to agglomerate the oil-coated particles into granules, and subjecting the mixture to classification to remove the small non-coated particles from the granules.

2. Theherein-described process of separating metalliferous matter from gangue, which current classification to remove the small noncoated particles from the granules.

3. The herein-described process of separat- IOO ing metalliferous matter from gangue, which consists ign forming granules by agitating a mixture of powdered ore and water with oil in emulsion in water containing an alkaline emulsifying agent, separating out the light sands, and thereafter further agitating the pulp to increase the size of the granules and separati ng' out the heavy sands from the granules.

4:. rIhe herein-described process of separating metalliferous matter from gangue, which consists in agitating a mixture of powdered ore and water with oil in emulsion in water containing an alkaline emulsifying agent, adding particles of material having an aflinity for oil to assist in the formation of granules of oil-coated particles, and subjecting the mixture to classification to remove the small noncoated particles from the granules.

In testimony whereof I have signed my name to this specification in the presence of two subscribing witnesses.

ARTHUR EDWARD CATTERMOLE.

Witnesses:

CHRISTOPHER BARNETT, WALTER J. SKERTEN.

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