FI119226B - Method for Selective Foaming of Copper - Google Patents

Description

119226

METHOD FOR SELECTIVE FOAMING OF COPPER FIELD OF THE INVENTION

The invention relates to a method for increasing the pH buffer capacity of a feed to a selective copper flotation. The pH buffer capacity is increased by feeding a soluble basic mineral to the ore during the pretreatment step. pH Buffer Capacity refers to the pH sensitivity of the feed and the recovery capacity when adding acidic or basic chemicals.

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BACKGROUND OF THE INVENTION

In order to utilize complex finely divided sulfide ores, various methods have been sought to selectively recover different value minerals. For example, complex copper sulfide ore can contain zinc, lead, nickel and iron in various sulfides. Selective separation of copper sulphide concentrate by foaming from such feed types can be done in a number of different ways.

U.S. Patent No. 5,439,115 describes a selective foaming of copper · · ·: 20 copper-lead-zinc sulphide ores. The process is characterized by a · · v: pre-aeration to achieve the desired range of oxidation-reduction potential.

• · · Subsequently, the slurry is subjected to a conditioning, aeration to the desired potential of · · * 60 - 340 mV and a pH of 8.5 - 10.0 with the help of slaked lime φ ·: * · * (Ca (OH) 2) and followed by selective foaming of copper.

· · 25 Xanthate is used as collector. After foaming the copper, the pH of the slurry is raised to 9.3-12 with slaked lime to foam the lead.

• *: '· * The disadvantage of the method can be considered to be high lime consumption and weak * * · non-selective especially in the treatment of partially oxidized ores.

Another selective copper: flotation method of copper-lead-zinc sulphide ore with ore slurry is described in U.S. Patent No. 5,074,994. coaching with bisulfite and basic starch at pH 5.7 · · · - 6.5. Coaching chemicals also act as zinc and lead printers.

2,119,226

After training, selective foaming of the copper is performed using a combination of dithiophosphates and dithiophosphinates.

One known precursor of precious metal sulfides is thionocarbamate-s compounds, which are selective for, for example, saccharide and pyrrhotite. By precious metal sulfides are meant copper, zinc and lead nickel sulfides. The use of thionocarbamate compounds as a scavenger in sulphide mineral foaming is described, for example, in U.S. Patent 4,584,097. The concentrate obtained is a combined concentrate of copper, lead and zinc.

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When the material to be treated is a multi-sulfide or complex sulfide ore, in which it is desired to use a thionocarbamate compound and form a copper sulfide concentrate substantially free of zinc or lead, suitable night-time chemistry chemicals should be used. Known depressors for lead and zinc chemicals include various sulfur oxo compounds such as metabisulfite (MBS) and dithionite, as well as various organic nightlife chemicals such as dextrin compounds. The process works well in the typical electrochemical potential ranges of copper minerals, but has the disadvantage that the sharp foaming of copper occurs only in a fairly narrow pH range, typically 6.5 to T: 20 7.0, preferably 6.7 to 6.9, for zinc sulfide is: V: best. In order to ensure sufficient foaming time, maintaining selectivity requires dosing the sulfur oxo compound, which is a nightmare chemical, to multiple points in the foaming circuit. This, in turn, results in a pH fluctuation of f * ··, and hence, non-selectivity without multistage pH measurement and control with feeds with low pH buffer capacity.

AIM OF THE INVENTION

• * ·

The object of the present invention is to overcome the drawbacks of the prior art methods described above. According to the method, • · 30 complex finely divided sulfide ores are formed by selective * · ·. • Foaming of copper by raising the buffering capacity of the • · *. ••• I ore feed, which allows foaming to be carried out without the need for • ♦ multistage pH measurement and control.

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SUMMARY OF THE INVENTION

The essential features of the invention will be apparent from the appended claims.

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The invention relates to a process for increasing the pH-buffer capacity of a feed to a selective copper flotation. The copper sulphide concentrate is formed by carrying out the necessary pre-treatment of the complex sulphide ore, after which the finely divided ore is fed into a separation foam. Foaming uses a copper scavenger chemical and a depressant chemical for lead, zinc, nickel and iron sulfides. The pH-buffering capacity of the complex sulfide ore is increased by introducing a soluble basic mineral into the ore during the pretreatment step.

The alkaline mineral is preferably limestone or dolomite. The alkaline mineral is preferably added to the crushing, grinding or coaching step of the pretreatment, typically in the form of blocks, crushed powder, powder or slurry. The amount of mineral fed is in the range of 0.05 to 5% of the amount of feed.

··· V: 20 • · v .: Copper collector chemical is preferably thionocarbamate compound ··· and lead, zinc, nickel and iron sulfide nightmares are sulfur oxo compounds such as metabisulfite or dithionite. In addition to oxy compounds, other nightmare chemicals such as organic nightmare ··· ♦ 25 such as dextrin may be used.

f * ·· DETAILED DESCRIPTION OF THE INVENTION

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The use of pure sulphide ores is usually relatively simple, but due to their limited number, more and more complex, fine - grained shifts have been made. : sulphide ores. Complex Malmi is meant to include * · *. · * ·! a number of valuable minerals such as copper, zinc, lead, • m • · 4 119226 nickel sulphide, and iron sulphides such as pyrite and magnesia. The pH buffer capacity of such complex ores is typically low.

It is clear that the flotation-driven Malmi is subjected to necessary pre-treatment such as crushing, grinding and coaching. It is also advantageous to adjust the electrochemical potential of the slurry to the copper separation foam prior to foaming in the area best suited to the copper minerals. Typically this is done by aeration.

A useful process for preparing a selective copper foaming concentrate from a complex sulfide ore is described in the prior art, using a thionocarbamate compound as a collector chemical and a sulfur oxo compound such as metabisulphite (MBS) or dithionite such as metabisulphite (d) As noted above, the drawback of the method may be considered to be the relatively narrow pH range required by the process to maintain selectivity in a flotation circuit with a sufficient delay, which results in the need for multistage pH measurement and control with low buffer capacity inputs. Typical complex ores have a low pH buffer capacity of • ♦ 1 v · 1 20, as they generally do not contain alkaline • · v .: side-rock minerals.

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A method has now been developed to adjust the pH buffer capacity of the complex sulfide ore 1: 1 ·· by adding a soluble basic mineral to the flocculant • · · 25 feeds. The amount of mineral needed depends on the dosage of acidic nightmare chemical, but • · ϊ 1 ·· is typically 0.05 - 5% of the amount of feed. Mineral quality is not a critical factor as long as it is sufficiently homogeneous. Alkaline mineral: \ i is typically limestone, CaCO3. Another suitable mineral is, for example, dolomite 30, CaMg (CO 3) 2, and other basic minerals may also be used, such as various serpentinite minerals.

119226 Adjusting the pH Buffer Capacity allows dosing chemistry to be dosed without harmful pH fluctuations, as the alkaline mineral smoothes the pH of the slurry when it reaches the target range. When using an alkaline mineral for pH control, the pH of the slurry does not rise too high, as is the danger 5 if only other lime (CaO or Ca (OH) 2) is used as the pH control chemical.

The alkaline mineral is preferably added, for example, in blocks or crushed to the crushing or grinding stage of the ore or as a fine powder or slurry to the coaching stage. When added to the milling feed, the mineral prevents the electrochemical potential of the slurry from being too reducing, for example, by iron or iron ball milling, and thereby also improves the operating conditions for selective copper foaming and aeration to achieve the electrochemical potential level.

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Claims (16)

A method for increasing the pH buffer capacity of input materials to be led to selective copper flotation, wherein copper sulphide concentrate is formed by performing necessary pretreatment on complex sulphide ore, after which the atomized ore is measured for separation flotation using a copper collector and lead, zinc, nickel and iron sulphide printing chemicals, characterized in that a complex mineral soluble in the pre-treatment stage is added to the complex sulphide ore to increase the pH buffer capacity of the ore. 2. A method according to claim 1, characterized in that the basic mineral is limestone. ice Method according to claim 1, characterized in that the basic mineral is dolomite. 4. A method according to claim 1, characterized in that the basic mineral is a serpentinite mineral. «« · • · · * .1 1 20 «· \ v Method according to claim 1, characterized in that the basic mineral is added to the crushing, grinding or preparation stage of the pre-treatment stage. * · • Method according to claim 5, characterized in that the basic mineral is added in the form of blocks or crusher in the crushing or grinding stage. • · e · • · · {** .. Method according to claim 5, characterized in that the basic mineral is added in the form of powder or sludge in the preparation stage. ··· • · • · * ·· · 119226 Method according to claim 1, characterized in that the amount of basic mineral to be supplied is 0.05-5% of the amount of input material. 9. A method according to claim 1, characterized in that a thionocarbamate compound is used as a copper collector chemical. 10. A method according to claim 1, characterized in that an oxo compound of sulfur is used as a printing chemical. 10 11. A method according to claim 10, characterized in that as an oxo compound of sulfur, metabisulfite is used. Method according to Claim 10, characterized in that dithionite is used as oxo compound ice of sulfur. 13. A method according to claim 1, characterized in that an organic printer is used as a printer chemical. ··· v: 20 The method according to claim 13, characterized in that dextrin is used as an organic printer. ··· e · • · · ♦ · ··· 15. A method according to claim 1, characterized in that the electrical potential of the sludge is adjusted to the optimum range for the separation of copper minerals * ···: before the separation flotation. • · * · 1 · 1 16. A method according to claim 15, characterized in that the electrochemical potential of the sludge is adjusted to the optimum area for copper minerals • 1 ·· separation by means of aeration. · 1 ·: 30 • · ·, w ··· • · * · ··· ·