DD300730A7 - PROCESS FOR IMPROVING THE FLOTATION OF CALCITREFLUORES - Google Patents

Abstract

The invention relates to the flotation of fluorite from natural Rohspaeten, which also contain calcite in addition to fluorite. According to the invention, calcite is also present in addition to the collector in customary addition doses. According to the invention, in addition to the collector in conventional additions and using per se known Drückerkomponenten and Schaeumer an additive polar-nonpolar character in a ratio collector: additive, such as 5 to 2: 1, and the dispersant-Druecker component differing from conventional doses large orders in a ratio of collector: Druecker, such as 3 to 1.5: 1, added. By the procedure according to the invention, a considerable increase in output is achieved compared with the previously known and practiced method for flotation of calcite-rich fluorites.

Description

Field of application of the invention

The invention relates to a method for increasing the yield in the extraction of high-quality fluorite concentrates by flotation of natural Rohspäten containing in addition to the valuable mineral fluorite and calcite.

Characteristics of the known state of Teohnik

It is known from the practice of processing mineral raw materials that high-quality fluorite concentrates are increasingly obtained as a result of increasing adhesions of the valuable mineral fluorite with the accompanying components by flotation. With the conventional reagent regimes using aliphatic carboxylic acids, such as olein, as a collector for fluorite in conjunction with so-called pusher reagents, such as water glass, tanning agents, polyphosphates and polyvalent metal salts, only high-quality fluorite concentrates (> 95% CaF ₂ ) can be produced if the calcite content in the feedstock of the flotation does not exceed about 4% (Neue Bergbautechnik 15 [1985] 8, pages 303 to 305). If this limit is exceeded, then only such an enrichment of the fluorite can be achieved, which does not allow to produce rationally from this Flußspatprodukt hydrofluoric acid by reaction with sulfuric acid, since a calcite contained in the flotation concentrate requires an equivalent amount of sulfuric acid, for the implementation lost to hydrogen fluoride.

While retaining the abovementioned and previously customary reagent regime, high-quality fluorite products can be prepared by leaching / dissolving the calcite from the flotation concentrate with mineral acids (Cvetnye metally, Moskva, 41 [1968] 1, page 20 et seq., DD-WP 155979).

Special reagent combinations, in particular the connection of aliphatic carboxylic acids with acidic water glass (Obogascenie rud, Leningrad, 17 [1972, July / August] 4, page 16-18), with tannins of different composition (Freiberg Forschungshefte A255, Leipzig 1962, pages 247 to 259 ), with inorganic electrolytes (Freiberger Forschungshefte A 513, Leipzig 1973, pages 29 to 43, Mineral Processing & extractive Metallurgy, London, 82 [1973, March] 796, pages 49 and 50), with starch products (Yazan, A., Dissertation Aachen University of Technology 1966) and with polyphosphates (Izv vyss., Zavedenij, Cvetn. Metallurg., Ordzonikidse 17 [1974, January / February) 1, page 8 to 11) lead to a controlled dominance of calcite contents under certain raw material and procedural boundary conditions in raw slate. It is also known that calcite-rich fluorites can be treated by the use of collectors having structures other than aliphatic carboxylic acids. Alkyl phosphates, for example, for a Rohspat with 55.6% CaF ₂ and 37.3% CaCO ₃ when using a multi-stage purification to a concentrate with 97% CaF ₂ at a yield of 55% led (CA 776745). Through the use of collectors of the type N-acylaminocarboxylic acids, for example oleoyl sarcosine, in combination with conventional regulating reagents of the usual amount of addition, high-quality fluorite concentrates can be produced independently of the calcite content in the rawspar (DD-WP 157446). It was found in a 18-cell fluorite flotation, consisting of base floatation, three cleaning and two Kontrollflotationsstufen, for a Rohspat with 30.9% CaF ₂ and 14.4% CaCO ₃ that when using 8OU to 1000 g / t Oleoylsarcosin as Fluoritsammler in combination with conventional pushers such as water glass (500 to 1000 g / t). Quebracho (50 to 150 g / t) and Na-hexametaphosphate (10 to 50 g / t) Although a very good concentrate quality can be obtained (95 to J8% CaF ₂ ), but the Fluoritausbringen in the flotation with about 40% does not meet the requirements of economic use of raw materials.

From the processing technology is generally, without consideration of special material aspects such as for the flotation of calcite fluorites, known that the use of non-ionic polar non-polar substances (for example DE-OS 3517154) or non-polar oils (Schubert, preparation of solid mineral raw materials, VEB German publishing house for basic industry, Leipzig 1979, Bd. II) as additive can be of advantage.

Object of the invention

The invention aims to achieve a higher yield at low CaCOj content in the flotation concentrate in the flotation of calcite-rich fluorite over previously known solutions and thus to ensure an ecological use of raw materials.

Explanation of the essence of the invention

The invention has for its object to achieve an improved spreading in the flotation of fluorite from calcite-rich debris using Oleoylsarcosin as Fluoritsarnmler.

The object of the invention is achieved by using an extended reagent regimen which, in addition to the collector in conventional addition amounts and known regulatory reagents, forms an additive, in the form of an anionic surfactant (for example, saturated surfactant), as the basis for the operation of the flotation process which selectively affects fluorite and unsaturated alkylcarboxylic acids) and a foamer, and the previously used pusher for carbonated minerals, for example the quebracho belonging to the group of Gorbhilfsstoffe, but also, for example, Na-hexametaphosphate, in completely different, from the previous application deviating addition dose is used.

It has surprisingly been found that the addition of an anionic collector, for example a mixture of unsaturated and saturated carboxylic acids, the chain length of the hydrocarbon radical between 14 and 24 carbon atoms with appreciable proportions in the upper range dei chain length spectrum, alone in combination with the known triggering reagents Water glass and Quebracho used, an excellent collector for both fluorite and calcite and thus no highly enriched Fluoritkonzentrat durcli the common floating of both mentioned minerals, the flotation proceeds much cheaper with respect to the Ausbrirgens, without the concentrate quality is negatively influenced by inadmissibly high calcite contents , However, the effectiveness of this additive is only fully effective if at the same time the conventional pusher, the primary effect of the normal addition amounts of the order of 150g / t raw material mainly due to the hydrophilic nature of fixed on the nicht auszuschwimmenden minerals substances of colloidal dimensions, in a deviating from the usual dose, namely considerably increased amount of addition, for example 400 to 600 g / t is used. This high Zugabomenge causes in addition to the above fixation mainly on Bergemineralteilchen to prevent Sammleradsorption on this a highly effective dispersion of the present in the pulp solids, especially the Feinstkornes, whereby the induced by the collector in combination with the additive induced flocculation is compensated. To achieve this phenomenon, a threshold concentration of the pusher acting as a dispersant, which depends on the natural state of the mineral mixture to be treated, must be exceeded. The use of this component of the reagent regime, which takes place under a substantially increased addition amount, competes with the mixed film absorbed on the mineral surfaces, consisting of collector and additive. In fixed fixation on the fluorite surface, this process, which is to be treated as an equilibrium reaction, shifts in favor of the collector, while in mountain minerals, especially calcite, this shift takes place in favor of the pusher, that is to say that the collector-additive mixed film is displaced from the surface. The sarcosine class collector, for example oleoyl sarcosine, inherently possesses foam-forming properties. The sole use of this collector forms a laden, but already before discharge from the flotation machine by foam scrapers partially disintegrating foam. The addition of the additive and the component acting as a disperse trigger and the use of a conventional foamer of an addition amount which differs substantially from those used in the fluorite preparation form a foam which is required for the proper course of the flotation. The foam forming under these conditions shows an oily appearance, is large-bubble and decays sufficiently fast in the foam gutter. Due to the presence of the additive, in the absence of this reagent particle concentrate, the foam, which is less loose and hardly destructible, is converted into this technologically favorable state.

It has also been found that the success of the improved process is critically determined by where the components of the reagent regime are added, singly or in admixture. Of particular effect is the addition of the additive in the stages of the cleaning flotation in proportions of 25 to 70%, preferably 25 to 30% of the total amount.

The additive has proved to be a particular delivery stimulus at this addition site, without adversely affecting the quality of the foam product due to calcite flotation, which would have been expected due to knowledge of the effectiveness of the additive in the flotation of calcite-rich fluorites. Likewise promoting the increase in yield, but without adversely affecting the quality of the final product, is the addition of a mixture of collector, additive and disperser pusher to the process-technical location where the action of the reagents can take place in the immediate stage of surface formation, the milling. In this case, the proportion of the added amount of collector and its ratio to the other components of importance. As most favorable, a Sammlerzugabemenge has proven at this point of 40 to 90%, preferably 60 to 70%.

Exemplary embodiments

The following exemplary embodiments illustrate the teaching according to the invention on the basis of test results in a multistage large-scale flotation plant.

Experiment no. 12 3 4 5

RohspatzusammensöUung 30.1 27.4 31.2 29.9 37.6 CaF ₂ content in% 11.3 9.5 12.2 11.1 27.7 CaCO ₃ content% Reagenzregime 787 790 791 732 760 Collector in g / t (Cordesin O) Additive in g / t 280 281 279 253 190 (Rofamin * * -Safacid mixture) 450 458 422 488 210 Disperser pusher in g / t (Quebracho) 960 931 979 935 1025 Water glass in c; / t 170 155 380 300 240 Foamer in g / t (octanediol)

CaF ₂ release in% 73.9 83.1 75.8 80.0 79.6

Claims (5)

1. A method for increasing the output in the flotation of calcite-rich fluorites in a multistage flotation plant using a collector of the type N-acylaminocarboxylic acids in excess specific addition amount of 500 to 10OOg / t, preferably 600 to 800g / t, and using per se known pusher components and Foamer, characterized in that noben said collector is an anion-active collector of the aliphatic saturated or unsaturated carboxylic acids of the chain length of the hydrocarbon radical between 14 and 24 carbon atoms as an additive in the ratio collector additive such as 5 to 2: 1 and the dispersant pusher component in amounts other than conventional cans in the ratio collector: pushers such as 3 to 1.5: 1 are added. 2. A method for Ausster increase in the flotation of calcite-rich fluorites according to claim 1, characterized in that the ratio of collector to additive preferably 3 to 2: 1, is. 3. A process for increasing the output in the flotation of calcite-rich fluorites according to claim 1, characterized in that the ratio of collector to disperser pusher is preferably 2 to 1.5: 1. 4. A method for increasing the output in det flotation calcite-rich fluorites according to claim 1, characterized in that the ratio of collector to foamer 6 to 2: 1, preferably 3.5 to 2: 1, is. 5. A process for increasing the output in the flotation of calcite-rich fluorites according to claim 1 and 2, characterized in that the additive is added in a proportion of the total addition amount of 50 to 70%, preferably 25 to 30%, in the cleaning floatation.