RU2164830C2 - Method of sizing minerals and gold-bearing ores - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: process includes crushing, sizing to separate material into three classes, and x-ray-radiometric separation to separate material into concentrated product and tails. Separation is carried out in lump and small-portion mode simultaneously with division of stream into smaller streams. In both modes, separation process is carried out according to algorithm: η = Ni/N_S+kN_Fe in free fall mode, wherein -50(40)+10(5)mm, is separation characteristic value, -150+50(40)mm number of recorded x-ray quanta of examined mineral, η number if pulses of scattered primary emission, Ni number of x-ray quanta corresponding to iron emission, and K spectral factor. Small-portion sizing is oriented for class N_S50(40)+10(5) mm, and lump sizing for class N_Fe 150+50(40) mm. EFFECT: reduced losses of valuable components and extended material size ranges. 3 cl

Description

 The invention relates to the sorting of mineral resources, in particular gold-bearing ores, and can be used in the processes of preliminary ore dressing or separation into technological types and grades.

 A known method of x-ray radiometric mineral processing, representing the sequential transmission of pieces in front of the primary γ-ray sensor, excitation in the piece of secondary γ-radiation from each piece and the separation of pieces relative to a given threshold value of the enrichment criterion (analytical parameter), while the characteristic fluorescence is simultaneously measured simultaneously. x-ray radiation and γ-radiation scattered from a piece by proportional counters, and as According to the enrichment criterion (analytical parameter), the ratio of the intensity of the characteristic fluorescence x-ray radiation of the elements to the intensity of the source scattered by a piece of γ radiation is used, the intensity of the scattered radiation is recorded in the energy region corresponding to the photopic peak of the scattered radiation, and when gold-bearing ores are enriched by the gold genetic satellite, the characteristic X-ray fluorescence K or L series gold-related eleme she / copyright certificate USSR N 952384, cl. B 07 C 5/34, 1979 /.

 The known method of x-ray radiometric mineral processing does not allow the separation of complex types of ores, enter into the sorting process a small class of ore -30 (20) mm, conduct a process with high productivity and quality of sorting.

где η - величина спектрального отношения;
У_x - скорость счета импульсов, соответствующая потоку характеристического излучения определяемого элемента;
У_s - скорость счета, соответствующая суммарному потоку рассеянного излучения источника;
У'_s - скорость счета, соответствующая потоку излучения, рассеянного от поверхности лотка в зоне облучения, не занятой кусками руды;
K - коэффициент пропорциональности, определяемый экспериментально.A known method for portion sorting of lead ore, implemented in a device for x-ray radiometric sorting of ores, representing vibrotransport of ore with subsequent movement along an inclined tray, where the pieces are irradiated from the cadmium-109 radioactive isotope, are fixed with a lead characteristic radiation detector, and the scattered radiation flux representing the sum of the scattered radiation is recorded radiation fluxes - scattered from the surface of pieces of ore, characterizing the composition of the host rocks, and from the surface t an ethane tray free of pieces of ore. The value of the spectral ratio (analytical parameter), subject to corrections, is determined by the algorithm

where η is the magnitude of the spectral ratio;
Y _x is the pulse count rate corresponding to the characteristic radiation flux of the element being determined;
Y _s is the counting rate corresponding to the total flux of scattered radiation of the source;
Y ' _s is the counting rate corresponding to the flux of radiation scattered from the surface of the tray in the irradiation zone not occupied by pieces of ore;
K is the proportionality coefficient determined experimentally.

 Compared with the reference value of the element, the magnitude of the spectral ratio is compared and, according to the results, the flow of the sorted ore is directed by the actuator to various bunker compartments / USSR copyright certificate N 1028387, class. B 07 C 5/342, 1981 /.

 The implemented method of fine-graded sorting of ores does not provide the necessary sorting quality and is characterized by large losses of a valuable component in the sorting tail, since lumpy material (more than 30-50 mm) requires piecewise rather than fine-graded sorting. At the same time, to ensure high productivity, the ore must go in a wide flow. But in this case, the analyzed portion will be quite large (in terms of mass and size), and with increasing portion the portion difference (contrast) in the content of valuable components decreases, which reduces the quality of the separation of ore into enriched and tail products.

Closest to the claimed is a method for the high-speed extraction of components from bulk materials, including crushing the material to a maximum particle size of 70 - 150 mm, sieving the crushed material into fractions, radiometric separation of large fractions, which consists in sequentially passing the pieces in front of the excitation and detection unit, exposure to the pieces primary radiation, recording for a time of flight measurement zone piece pulse number N ₁ in the spectrum of the secondary radiation, characterized relevant the erotic radiation of the identifiable element, and in some second region of the secondary radiation spectrum, calculating the analytical parameter with a given threshold value, dividing the pieces based on the comparison results using the actuator, while the second region in the secondary radiation spectrum is chosen so that only pulses are recorded in it characteristic radiation of the control element, and the number of pulses N _{k is} used to calculate the analytical parameter η by the formula η = N _i / K _k , when lump materials larger than 15 mm are subjected to a radiometric separation with a ratio of the size of the largest by size of the lump to the size of the minimum in a separate stream of separated material equal to 1-3 / USSR copyright certificate N 2062666, cl. B 07 C 5/346, 1994 /.

 The known method is characterized by the following disadvantages: applicability only for a narrow circle of minerals, in which the control element in content varies slightly; the method is not efficient enough, especially in small classes and is applicable only for material with a particle size above +15 (20) mm, which does not allow to introduce a small class of -15 (20) mm into processing.

 The problem solved by the invention is improving the quality and performance of sorting for a wide range of minerals, reducing losses of the useful component.

мелкопорционную сортировку осуществляют на класс крупности -50(40) +10(5), а покусковую на класс -150 +50(40) мм, при этом при сортировке золотосодержащих руд выделяют несколько элементов, ассоциирующих или коррелирующих с золотом, оценку наличия (или отсутствия) золота в куске производят по логике и/или, а продукт сепарации объединяют с мелким несортируемым классом (-5 или -10 мм).The problem is solved in that in the method for sorting mineral raw materials in gold-bearing ores, including crushing, screening with separation into three classes, subsequent x-ray radiometric separation of the material with separation into enriched product and tails, according to the invention, the separation is carried out simultaneously in bite and fine-proportioning modes with flow separation in fine-graded sorting into streams, while the flow of each stream is measured in free fall, discrete portions (m kroportsii) followed by separation of the material to be sorted products on the degree of content of valuable components, in both modes, the separation is carried out by an algorithm

fine-graded sorting is carried out into a particle size class of -50 (40) +10 (5), and piecewise sorting into a class of -150 +50 (40) mm, while when sorting gold-bearing ores, several elements are identified that associate or correlate with gold, the presence (or absence) gold in a piece is produced by logic and / or, and the separation product is combined with a small unsortable class (-5 or -10 mm).

алгоритм наиболее объективно учитывает влияние железа при определении элементов с энергиями характеристического излучения близких к FeK_α (таких как: Cr, Mn, Co, Ni, Cu, Zn), а также существенно повышает достоверность определения анализируемых элементов в случае сортировки материалов с большим различием содержаний железа в кусках (микропорциях);
- мелкопорционную сортировку осуществляют на класс -50(40) +10(5); покусковую - на класс -150 +50(40) наиболее оптимальных для рентгенорадиометрической сепарации в покусковом и мелкопорционном режимах, что обеспечивает, в частности, выведение самого мелкого класса - 5 или - 10 мм и менее, который более усреднен, чем крупные классы и в значительной мере мешает измерению микропорций рентгенорадиометрическим способом;
- при сортировке золотосодержащих руд выделяют несколько элементов, ассоциирующих с золотом, и определение золота в куске производят по логике "И/ИЛИ", что позволяет более достоверно учесть наличие или отсутствие золота в куске при возможном отсутствии в куске одного из коррелирующих элементов;
- продукт сепарации объединяют с мелким не сортируемым классом -10(5) мм, что позволяет снизить потери полезного компонента.Features implemented to solve the problem:
- separation is carried out in the start-up and small-batch modes at the same time, which allows to improve the quality of sorting due to the exclusion of an additional averaging of almost 50% of the rock mass (small class is finer than 25 mm), which goes to small-batch sorting in the implemented technology immediately after screening, bypassing the storage tanks , bunkers, warehouses with concomitant additional averaging;
- separation of the fine-flowing stream into streams, while in each stream stream discrete portions in free fall are allocated during measurements, which improves the quality of sorting when measuring discrete micro-portions in the range of 0.05 - 0.1 seconds and at the same time avoids the influence of the surrounding materials on the measurement quality (material of trays, conveyors, structures);
- separation is carried out according to the algorithm

the algorithm most objectively takes into account the effect of iron when determining elements with characteristic radiation energies close to FeK _α (such as: Cr, Mn, Co, Ni, Cu, Zn), and also significantly increases the reliability of the determination of the analyzed elements in the case of sorting materials with a large difference in contents iron in pieces (micro-portions);
- fine-graded sorting is carried out in class -50 (40) +10 (5); pokuskuyu - for class -150 +50 (40) the most optimal for x-ray radiometric separation in pokuskoj and small-batch modes, which ensures, in particular, the removal of the smallest class - 5 or - 10 mm or less, which is more averaged than large classes and significantly interferes with the measurement of microporosities by an x-ray radiometric method;
- when sorting gold-bearing ores, several elements are identified that are associated with gold, and the determination of gold in a piece is carried out according to the “AND / OR” logic, which allows more accurately taking into account the presence or absence of gold in a piece with the possible absence of one of the correlating elements in a piece;
- the separation product is combined with a small non-sortable class of -10 (5) mm, which allows to reduce the loss of the useful component.

 The proposed method for sorting mineral raw materials and gold ores is implemented as follows.

 Example 1

 A technological sample of poor quartz-sulfide gold-bearing ore in a volume of 10 tons of the Eldorado deposit with a gold content of 2.5 g / t and a particle size of -150 mm was screened on a SMD-187A unit with a two-tier sieve installation with 10 and 50 mm sieves. A class of -10 mm was stockpiled for subsequent testing.

 Pokuska separation and fine-grading sorting was carried out on an industrial X-ray radiometric separator SRRL-4-150 / 40, (TU 3132-015-05820239-96, manufactured by Rados LLC, Krasnoyarsk). The separator is equipped with four streams for piecewise and small-sized sorting.

где N_As - регистрируемое число квантов характеристического рентгеновского излучения мышьяка (арсенопирит - основной ассоциирующий с золотом минерал, генетический спутник). Эксперименты подтвердили, что

можно в этом случае заменить на значение K = 1.Initially, fine-graded sorting was carried out. The screened material of -50 +10 mm, as it was screened, went directly to sorting without additional averaging, and the -150 +50 mm class was stored for subsequent piecewise separation (storage does not affect the quality of piecewise separation). Separation of quartz sulfide gold ore was carried out according to the algorithm

where N _As is the recorded number of quanta of characteristic x-ray radiation of arsenic (arsenopyrite is the main mineral associated with gold, a genetic satellite). Experiments have confirmed that

can in this case be replaced by the value K = 1.

т. е. распознование кварца от (на фоне) вмещающих пород производили по отсутствию или малому количеству железа в куске (во вмещающих породах содержание железа в 3-10 и более раз превышает содержание в кварце). При использовании этих двух параметров в качестве общего алгоритма одновременного выделения золотосодержащих кусков (кварцевых или сульфидных) и безрудных кусков использовали логику и/или.An algorithm was used to isolate a quartz ore variety from the stream, also containing part of the gold.

i.e., the recognition of quartz from (against) the host rocks was made by the absence or small amount of iron in the piece (in host rocks, the iron content is 3-10 times or more higher than the content in quartz). Using these two parameters as a general algorithm for the simultaneous separation of gold-containing pieces (quartz or sulfide) and barren pieces, logic and / or were used.

1. η _As > P ₁ - (sulfide block) - selection, where P ₁ is the set threshold value for η _As <P _{1 As} <P ₁ followed by a check on η _Fe .

2. η _Fe <P ₂ (quartz piece) - selection, where P ₂ - the set threshold value for quartz at η ₁ <P ₁ and η ₂ > P ₂ - barren piece.

All these combinations are combined according to common logic.
- the logic of the allocation of gold-bearing ore pieces:
η ₁ > P ₁ <or> η ₂ <P ₂
- the logic of the allocation of rocks - barren pieces poor in gold and dump ore
η ₁ ≤ P ₁ <and> η ₂ > P ₂
Fine-graded sorting was performed by dividing the initial stream of class -50 + 10 on the separator into four streams, which were measured in free fall after the vibrator. Due to the slit collimation of primary X-ray radiation, each stream of the sortable class is scanned, and the measuring system breaks these streams into even smaller portions corresponding to measurement cycles of 0.05 - 0.1 s with a mass of each portion of 0.5 - 1 kg (which is approximately equal to the weight of the middle piece).

 Thus, a sequential decrease in the sorted portions to the stream, and then to the microportions, allowed to increase the contrast of microporcies and improve the quality of sorting without sacrificing performance.

 As a result of fine-graded sorting, an enriched product was isolated with a yield of 12.7% of ore (~ 28% of the class) and an enrichment factor of 1.55.

 Pokuska separation of class -150 +50 mm was performed on the same separator with the separation of ore and tailings of separation enriched in 2.8 times with the content of only 0.4 g / t gold (at the level of dump).

 The resulting marketable ore is the product of combining the enriched part of the ore (lump separation and fine-graded sorting) with an unsortable grade of -10 mm. The overall quality of marketable ore was improved 1.8 times compared to the original. Common tails contain less than 1 g / t of gold (0.88 g / t), which is significantly lower than the cutoff grade cost-effective for processing.

 Technological parameters of tests of x-ray radiometric concentration of ore of class -150 mm are presented in table. 1.

 Example 2

 A technological sample of lead-zinc poor ore from the Gorevsky deposit in the Krasnoyarsk Territory (from an off-balance dump of 0.8% Pb and 1.3% Zn) was screened with a classification of -150 +50, -50 +10 mm.

 For piecewise and small-sized sorting, a 4-strand X-ray radiometric separator SRRL-4-150 / 40 was used.

где N_Zn и N_Pb - число квантов рентгеновского излучения, соответствующее Zn и Pb;
N_S - число квантов рассеянного излучения;
N_Fe - число квантов рассеянного излучения;
K - спектральный коэффициент

Тем самым, при больших содержаниях железа знаменатель для η увеличивается и компенсирует влияние железа на "мнимое" увеличение содержание цинка и свинца.The ore being processed is characterized by a high siderite content (20–40%), which interferes with the determination of Pb and Zn in pieces and portions of ore. The separation algorithm (analytical parameter) was applied, which allows us to simultaneously analyze small contents of Pb and Zn against the background of a high content of Fe in the separation and sorting mode:

where N _Zn and N _Pb is the number of X-ray quanta corresponding to Zn and Pb;
N _S is the number of scattered radiation quanta;
N _Fe is the number of scattered radiation quanta;
K is the spectral coefficient

Thus, at high iron contents, the denominator for η increases and compensates for the effect of iron on the "imaginary" increase in zinc and lead.

At low Fe contents, its contribution depends on N _Zn + N _Pb and the applied value of K also completely compensates for the effect of Fe on the determination of Zn and Pb.

Fine-graded sorting of the -50 +10 mm class was carried out in the following sequence:
- ore supply with a monolayer on a 4-stream vibrator with separation into four stream flows;
- the allocation of microporities of ore and their measurement when leaving the pickup in free fall; microportium release due to cyclic measurement with a cycle of 0.1 s;
- beating of micro-portions by the gate of the electromagnetic actuator, the analytical parameter of which exceeds the set threshold.

 Two products were identified - enriched and tails.

 Pokuska separation was carried out similarly by the analytical parameter η into the class -150 +50 mm with the separation into two products - enriched and tails.

 The results are presented in table. 2.

 According to the implemented method, 26.1% of rich ore (enriched products) was extracted from poor ore (12 + 14.1) = 52.3% Pb and 46.4% Zn.

 Enriched products were combined with a -10 mm class.

 The method allows to improve the quality of separation of especially complex ores, introduce a small grade of ore -50 (40) into the sorting process, increase the productivity of the process, and reduce the loss of useful component.

Claims (2)

1. A method for sorting mineral raw materials and gold-bearing ores, including crushing, screening with division into three classes, subsequent x-ray radiometric separation of the material with separation into enriched product and tails, characterized in that the separation is carried out simultaneously in the starting and small-portion modes with the separation of the small-sized stream into streams , while in each stream stream discrete portions in free fall are isolated during measurements, followed by separation into products according to the degree of useful content Components, the separation in both modes is performed according to the algorithm

and small-sized sorting is carried out to the class -50 (40) +10 (5) mm, piecewise sorting to the class -150 +50 (40) mm. where η is the value of the sign of separation;
Ni is the number of recorded x-ray quanta with a wavelength corresponding to the characteristic radiation of the analyzed element;
N _S is the number of pulses of scattered primary radiation;
N _Fe is the number of recorded x-ray quanta with a wavelength corresponding to the characteristic x-ray radiation of iron;
K is the spectral coefficient equal to

2. The method according to claim 1, characterized in that when sorting gold-bearing ores, several elements are identified that are associated with gold, and the determination of gold in a piece is carried out by logic and / or.  3. The method according to claim 1, characterized in that the separation product is combined with a small non-sortable class of -10 (5) mm.

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