RU2065188C1 - Method of thorough search for endogenic ore deposits - Google Patents

Abstract

FIELD: geology, geophysics. SUBSTANCE: method is developed for geochemical prospecting and search for endogenic deposits of mineral resources, specifically for isolation of productive ore zones within limits of deposit. In compliance with method samples are taken, total concentrations of elements in them and sums of mobile organic and mineral compounds are found, factor Cn of distribution of total concentrations of elements in rock, factor Cn^* of distribution of concentrations of organic and mineral elements in rock and ratio of weight of organic and mineral elements to their total weight in sample are determined. Factor K^* of mobility is evaluated. Quantitative values of these factors are used to judge about availability of endogenic ore deposits. EFFECT: improved authenticity of method. 3 dwg

Description

 The invention relates to methods for geochemical prospecting and exploration of endogenous deposits, in particular to methods for isolating productive ore zones within deposits.

Known methods of geochemical prospecting and exploration of ore deposits by organometallic forms of finding elements [1]
Closest to the proposed one is a method of geochemical exploration, including sampling, extracting from them mobile organomineral compounds (POMS), determining the concentration of the sum of POMC and judging the desired object by quantitative POMC ratios [2] However, in the known methods, indicators were not defined that allow unambiguous highlight ore zones.

A distinctive feature of the proposed method for geochemical exploration of endogenous ore bodies by sampling, determining the total concentration of elements and the sum of mobile organic-mineral compounds in them is the determination of the distribution indicators of the total concentration of elements in the rock С _p , the distribution of the concentrations of organic-mineral elements in the rock С _p ^* and the ratio of the weight of organic-mineral elements to gross weight of the sample, estimating the mobility coefficient elements K ^* and the quantitative values of these exponents MDL judge the presence of endogenous ore zones.

 The method is implemented as follows. On the geological survey area across the strike of the studied objects, lithochemical testing is carried out using reference profiles, the choice of which is determined by the scale and strike of the ore zone.

 Sampling is carried out on bedrock on outcrops and from core samples. The selected samples are subjected to quantitative spectral analysis for a number of elements characteristic of a particular type of field, determining the total concentration of elements. The concept of gross concentrations of elements includes the concentrations of elements located in the crystal lattice of rock-forming minerals, their own mineral and organomineral compounds.

 In the same samples, POMS concentrations are determined by non-destructive extraction concentration of POMS with organic solvents inert with respect to rocks and compounds extracted from them. The concept of POMS includes organic compounds (OS), elements chemically bonded to organic compounds, organoelement compounds (EOS) and chemically unbound elements (E).

.The following indicators are determined by the nature of the distribution of gross concentrations of elements and POMS:
distribution of gross concentrations of elements in the rocks (C _p );
distribution of concentrations of organic mineral elements in the rocks (C _p ^* );
distribution of the coefficient of mobility of elements (K ^* ), equal to the ratio of the weight of the organomineral elements K ^o their gross weight in the samples

.

 According to the quantitative ratios of these indicators, productive ore zones are distinguished.

The multidirectional distributions of elements in the mineral and organomineral phases are explained by the fact that in the processes of the long-term formation of mineralization, organomineral elements are distilled off to the peripheral parts of the productive zones, while the elements of the mineral phase are mainly localized in the ore zone. In connection with this situation, as shown by numerous studies, the most distinct allocation of ore zones is carried out according to the values of the coefficient of mobility of elements (K ^* ).

According to K ^* values, varying in amplitude by 1-2 orders of magnitude, productive ore zones are distinguished among barren and low-mineralized rocks.

 Example. Geochemical exploration of ore zones of porphyry copper deposits.

 The work was carried out along transverse profiles located in the central part of the Boshekul ore field with copper-molybdenum mineralization. The ore field is located within the Lower Cambrian island arc of the east-north-east strike.

 Mineralization is associated with a dike-like granitoid intrusion embedded in a barrier anticline. Internal productive zones are confined to altered basalts, to a varying degree saturated with porphyry intrusions. Their outer parts are localized in propylized volcanic rocks.

 Lithochemical testing was carried out on bedrock and core samples. Testing in selected samples of the gross concentrations of elements was carried out by quantitative spectral emission analysis. Determination of POMC concentrations after their non-destructive extraction concentration from rocks with organic solvents was carried out by X-ray fluorescence analysis (a specially developed modification of the method).

In FIG. 1 shows graphs of the distribution of gross element concentrations (C _p ); figure 2 graphs of the distribution of concentrations of organomineral elements (With _p ^* ); figure 3 graphs of the distribution of the coefficients of mobility of the elements (K ^* ).

 According to the gross concentrations of the elements (Fig. 1), the ore zone is characterized by increases in the concentrations of Cu, Zn and Cr. Significantly increased concentrations of As, Cr, Zn and Cu are mixed to the right side of the zone and are grouped in the outer part of the pyritized propylites. The determination of the ore zone by elements in the mineral phase is ambiguous. This is due to the fact that both ore zones and weakly mineralized areas are enriched with ore elements and indicator elements. The ambiguity of the allocation of the ore zone is observed when studying the distribution of concentrations of organomineral elements in the rocks (figure 2), which is due to the same reason.

At the same time, by the values of the mobility coefficient K ^{*, the} ore zone is beaten unambiguously (Fig. 3). It is especially distinct in the K ^* values of the elements Cu, Zn, Pb, Ni, Cr by 1 2 orders of magnitude different from the K ^* values in the outer pyritized zone (in the host rocks).

 Thus, the proposed method allows for the indices of the distribution of gross concentrations of elements and PMS to unambiguously identify areas of intense manifestation of various processes leading to the formation of industrial deposits and determine the ore zone deposits.

 The proposed method, in comparison with the known ones, makes it possible to identify promising ore sites, which makes it possible to increase the geological and economic efficiency of exploration by reducing the cost of detailed areal surveys.

 Compared with the known method, it is possible to identify promising areas, which makes it possible to increase the geological and economic efficiency of exploration work by reducing the cost of detailed areal survey.

Claims (1)

 The method of detailed exploration of endogenous ore deposits by geochemical testing of rocks and core samples, determining the total concentrations of elements in the selected samples and judging by them about the presence of ore bodies, characterized in that they further determine the concentration of mobile organic-mineral elements in the rocks and the ratio of the weight of the organic-mineral elements to the gross weight ore elements in rocks, evaluating the mobility coefficient of elements, and by increasing this coefficient by at least one order, ore bodies are identified .

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