RU2069005C1 - Method of geochemical search for gold-ore fields covered by jacket of loose deposits - Google Patents

Abstract

FIELD: prospecting for gold-ore fields. SUBSTANCE: sampling of earth air is carried out in closed areas by certain system by pumping with vacuum pump and by simultaneous passing of samples through filter and sorbent with isolation of mobile form of direct elements-indicators. Filter- and sorbent-selected samples are analyzed by high-sensitivity method which does not require preparation of samples to determine content of direct elements-indicators, for example, gold, arsenic, antimony, wolfram. Anomalous sections corresponding to desired objects are isolated by quantitative relationships of these elements. EFFECT: improved authenticity of method. 4 cl

Description

The invention relates to geochemical prospecting for ore deposits covered by a cover of loose deposits, in particular gold deposits. Known methods of geochemical searches for gold deposits, covered by a cover of loose deposits, lithogeochemical methods for secondary halos and atmogeochemical search methods [1]
Closest to the proposed method is a method for geochemical searches of deep-lying ore deposits using mobile forms of elements, including sampling, isolating mobile forms of elements in samples, determining the contents of direct mineralization indicator elements in the mobile component of the samples and finding the desired ore object from the ratios of the contents of these elements [ 2]
The disadvantage of this method is the complexity and duration of the allocation of mobile forms.

 An advantage of the proposed method is the lower laboriousness of the process of sampling and transportation of samples, the absence of the stage of preliminary sample preparation associated with the allocation of mobile forms of indicator elements.

 In addition, the proposed method allows to determine the content of elements using a highly sensitive neutron activation method, which makes it possible to increase the detection threshold by two orders of magnitude and simultaneously determine the entire spectrum of direct gold mineralization indicator elements.

 The technical result of the proposed method is to increase the efficiency of prospecting and exploration to identify gold mineralization in areas covered by a cover of loose deposits.

 A distinctive feature of the proposed method is that it takes samples by pumping out soil air, passes the evacuated air through a filter and a sorbent, isolating the mobile form of direct indicator elements, then analyzes the samples with a highly sensitive method that does not require sample preparation, determining the content of direct indicator elements for example, gold, arsenic, antimony, tungsten, and the presence of gold mineralization is judged by the ratios of these elements.

 The essence of the proposed method is as follows.

 In the search area with a step along the profile of 10 15 m and a distance between the profiles of 50 250 m, holes of 20 30 cm in depth are punched. Then, using a vacuum pump, 5 10 L air samples are pumped out for about 1 minute. In the process of pumping, air is passed through a sealed system, which includes a dust filter and sorbent.

 A cellulose acetate material, such as an AFA-XA filter, is used as a filter, and a carbon material, for example, activated carbon, as a sorbent.

 In the process of pumping and the passage of soil air through a sealed system, the dust component of the sample is deposited. The dust component of the sample characterizes the total content of elements in soils.

 At the same time, the atomic component of the soil air sample passes through the filter and settles on the sorbent. The atomic component of the sample is the most mobile form of direct indicator elements of gold mineralization, in particular gold, arsenic, antimony, tungsten.

 Next, samples deposited on the filter and sorbent are analyzed for the content of direct indicator elements using a highly sensitive neutron activation method. Moreover, these samples do not require preliminary preparation.

 As a result of the analysis, the content of direct indicator elements in both the moving form of the element and its gross content are determined at each testing point.

 Calculating various ratios of the contents of the elements, anomalous sections corresponding to the desired object are distinguished.

 Example. On the area of prospecting for a gold ore deposit of black shale strata (Muruntau), blocked by younger deposits with a thickness of a few meters to hundreds of meters or more, soil air samples are taken from holes 25-30 cm deep. A vacuum pump, AFA-XA dust filters and a sorbent are used for sampling from activated carbon. Then the dust component and the atomic component of the soil air sample passed through the filter and deposited on the sorbent are isolated from the filter. Both components of the sample are analyzed by the neutron-activation method and the content of direct gold mineralization indicator elements characteristic of this type of gold mineralization of such chemical elements as gold, arsenic, antimony and tungsten is determined. The ratio of the content of these elements is calculated according to the well-known method of processing geochemical data, anomalous sections are identified, determining the presence of the desired gold mineralization.

 The effectiveness of the proposed method compared with the known method, which is selected as a prototype, is to increase the reliability and expressivity of search operations in closed areas.

Claims (4)

 1. The method of geochemical searches for gold deposits covered by a cover of loose deposits, including sampling, isolating the mobile form of the elements, determining the content of direct indicator elements of gold mineralization and judging by them the presence of the desired object, characterized in that they take samples by pumping soil air , the evacuated air is passed through the filter and the sorbent, highlighting the mobile forms of direct indicator elements, the filter and the sorbent are analyzed by a method that does not require sample preparation, determined by Yerzhan direct indicator elements.  2. The method according to claim 1, characterized in that the filter uses cellulose acetate material such as AFA-XA.  3. The method according to claim 1, characterized in that the carbon material, for example, activated carbon, is used as the sorbent.  4. The method according to claim 1, characterized in that the instrumental neutron activation analysis is used.