RU2075103C1 - Process of prospecting for placers of noble metals - Google Patents

Abstract

FIELD: prospecting for placers of deposits of gold, silver, platinoides and other noble metals. SUBSTANCE: geological samples selected on locality are graded to size. Fraction of seallest size is washed, washed tailings and schlich residue of this fraction are analyzed for content of aggregations of coupled and thin free metal in schliches, schlich residue and washing tailings. Besides washing tailings and schlich residue are milled and content of mineral resource is determined by method of assay or spectral analysis and technological peculiarities of noble metal - by rational and phase analysis. EFFECT: improved authenticity of process. 6 dwg

Description

 The invention relates to the mining industry, to the exploration of placer deposits of noble metals of gold, silver, platinoids.

There is a method of prospecting for deposits, which consists in the fact that samples of river sand with a volume of 0.5 l are taken from alluvial deposits, dispersed, a fraction of 0.5 2 mm, weighing 2 10 g is isolated and analyzed for alkali metal content by flame photometry [1]
The disadvantage of this method is the extremely insufficient amount of information about a possible technology for the development of the field.

Closest to the invention is a method of exploration, which consists in the fact that geological samples are taken on the ground using exploration workings, the sample material is disintegrated, classified by density, washed concentrates and one or more fractions are analyzed for the content of the search material, and by abnormally high concentrations metal contour ore deposit [2]
The disadvantage of the prototype is that in the calculated reserves of the deposit unaccounted for are intergrowths, bound and thin free metals. Meanwhile, studies show that the share of this unaccounted metal is not 5 10% as previously thought, but depending on the deposit 20 70%, which fundamentally changes the attitude to this issue.

 The technical result achieved by the invention is a significantly more complete consideration of the content of precious metals in placer deposits.

 The specified technical result is achieved due to the fact that the method of prospecting for placers of precious metals consists in the fact that geological samples are taken on the ground with the help of exploration workings of pits, boreholes, trenches, etc. Then, the sample material is disintegrated, classified and washed on a concentration equipment separately for each fraction. From the obtained concentrates, particles of a noble metal in a free state are isolated and their content in the sample is determined, after which the reserves of the deposit are calculated. The method for exploring placers differs from the prototype in that washed sand and concentrate without a noble metal in a free state (schlichny residues) are classified by size, each fraction is separately analyzed for its content of aggregates, bound and thin free metals, and the calculation of reserves of the deposit lead by the total content of the noble metal in samples in all conditions (free, bound, in splices) and all fractions of size. Before analysis, the material is ground to a particle size of 0.1 mm, and the content of the noble metal and its technological features are determined in the ground material by assay, spectral analysis, and rational phase analysis.

An example of a specific implementation of the method for prospecting for placers of precious metals is a method for prospecting for placer gold deposits in the B. B. Testing was carried out by the method of bulldozer trenches. A total of five trenches have been completed. The total volume of samples was 2331.6 m ³ . Samples are classified into three fractions: +10; + 2.0 2.0 mm. The 2 mm fraction is divided by density into concentrate and light fraction. Flushing was performed on a POU -4 device. Free gold was obtained 281.4 g. After that, the washing tails and schlichny residues were crushed to a particle size of 0.1 mm and subjected to assay analysis. As a result, unexposed, bound and thin free gold of 706.7 g was obtained. Thus, in the traditional way, only 28.5% of the gold contained in the material was obtained, which significantly differs from the actual gold content in the deposit. At the same time, the field exploration data provides comprehensive information when designing a field development technology that ensures the maximum recovery of precious metal.

Claims (6)

 1. A method of prospecting for placers of precious metals, including taking geological samples on the ground using exploration workings, washing the samples with dividing them into tailings for washing and concentrate, isolating the noble metal from the last concentrate residues and particles in a free state, and determining their content in sample, the calculation of reserves of deposits, characterized in that the geological sample is classified by size, washed fraction of the smallest size, washing tailings and schlichny residues of this fraction are analyzed for the content of splices, bound and thin free metal in it, and the calculation of the reserves of the deposit are carried out by the total content of the noble metal in the concentrates, concentrate residues and tailings of washing.  2. The method according to p. 1, characterized in that before analysis for the content of unopened, bound and thin free metal, the washing tails and schlichny residues are crushed.  3. The method according to PP.1 and 2, characterized in that the flushing tails and schlichny residues are crushed to a particle size of 0.1 mm  4. The method according to PP.1 to 3, characterized in that in the crushed material determine the content of the noble metal by assay analysis.  5. The method according to PP. 1 3, characterized in that in the crushed material determine the technological features of the noble metal by rational and phase analysis.  6. The method according to claims 1 to 3, characterized in that the content of the noble metal is determined in the ground material by spectral analysis.