RU2059273C1 - Method for search of uranium and detection of environmental contamination with uranium - Google Patents

Abstract

FIELD: geology; method for search of uranium deposits and detection of environmental contamination with uranium. SUBSTANCE: method provides for taking specimens of tree leafs, their dewatering at 70-90 C for 1-2 h with subsequent determination of the form of manifestation of uranium in leaf structure and on its surface. Revealing of the difference in these forms is used to judge about uranium mineralization and/or environmental contamination with uranium. EFFECT: higher efficiency. 4 cl, 3 dwg

Description

 The invention relates to geochemical methods of searches, in particular to a biogeochemical search method associated with the study of the content of elements in plant material, and can be most effectively used in the search for uranium deposits and the identification of environmental pollution.

 A known method of searching for metals and minerals in the earth, based on the selection of plant samples from the studied area, the ashing of plant material and subsequent spectral analysis of ash [1] The results are presented in the form of a map of metal concentrations by the studied area.

 Also known is the biogeochemical method of searching for uranium deposits by indicator elements, based on the selection of plant samples, ashing of plant biomass and determining the content of the indicator element in it. Radium is used in the work as an indicator element. (Kovalevsky A.L. Features of the formation of ore biogeochemical halos. Novosibirsk, Nauka, 1975, p. 36-39).

Closest to the invention is a method for the search for boron deposits, based on the selection of plant material and analysis of boron content by its increased concentrations in local areas of the sample [2]
However, all known methods do not allow to separate the manifestation forms of uranium in the elements of the sheet structure, from the manifestations of microinhomogeneities containing uranium and located on the surface of the object of study, require long-term drying of the preparations, complex preparation of plant sections. In addition, the known methods do not allow to distinguish promising ore body from environmental pollution of the investigated element (uranium).

 The aim of the invention is to increase the detection efficiency of uranium mineralization and (or) environmental pollution.

For this method, the search field selection woody species leaf samples of plants produce at the end of the growing period, dehydrated leaves at 70-90 ^{° C} for 1-2 h, is determined in the form of uranium manifestations sheet and stringer structure on its surface and by differences forms of Uranium is judged on the presence of uranium mineralization, on environmental pollution and (or) on their total effect.

 By the presence of chaotic forms of manifestation of uranium in the structure of the leaf, they speak of uranium mineralization.

 By the presence of radially radiant forms of manifestation of uranium on the surface of the sheet, they speak of environmental pollution by uranium.

 According to the presence of chaotic forms and radially radiant forms, the manifestations of uranium speak of uranium mineralization and environmental pollution.

 In FIG. Figure 1 shows an example of chaotic forms of uranium distribution in the vein structure of a leaf for plants grown in areas of ore mineralization (Figs. 1 a and b show a fragment of a leaf and a detector showing the tracks in the leaf structure from fragments of uranium fission); figure 2 a and b, the radially radiant distribution form from uranium located on the surface of the sheet, as a result of environmental pollution in the growing area of the plant; in FIG. 3 a and b mixed forms of manifestation of uranium in the sheet structure and on its surface for areas of ore mineralization with simultaneous environmental pollution by uranium.

 Work on the proposed method is as follows.

 1. Take samples of plants that accumulate uranium.

2. Dehydrate samples at 70-90 ^about C for 1-2 hours

 3. A lavsan type detector is applied to the dried sample to detect fission fragments and reaction (n, f).

 4. The prepared package, consisting of alternating samples and detectors, is irradiated with thermal neutrons.

 5. After irradiation, the detector is subjected to selective chemical etching in a KOH solution to detect structural defects (tracks).

 6. Determine the form of manifestation of uranium on the detector, corresponding to the structure of the sheet.

 7. Determine the form of manifestation of uranium on the detector, corresponding to the presence of uranium on the surface of the sheet.

 8. Based on the revealed forms of uranium manifestation, they are judged on the presence of ore mineralization and (or) on environmental pollution.

 In the present invention, a previously unknown dependence of the nature of the manifestation forms of uranium in the elements of the sheet structure and on its surface with the presence of uranium mineralizations in the area of plant growth and sources of environmental pollution is established. In the absence of uranium mineralization and sources of environmental pollution, uranium is not found in the structure and on the surface of the leaves.

 The random distribution of tracks in the sheet structure indicates ore mineralization in the study area, and the radially radiant (star-shaped) manifestations of uranium make it possible to determine the nature and degree of environmental pollution.

PRI me R. On the territory of the study area were taken leaf samples 200-300, leaves after collecting dehydrated at 70-90 ^{° C} in a standard oven for 1-2 hours. The temperature and dehydration time were chosen so that the leaves of the plants are not sgopeli and have not changed their original forms. Existing methods of drying plants in this method cannot be used, since they to one degree or another affect the deformation of the vein structure and the leaf as a whole and thereby introduce distortions in determining the forms of manifestation of uranium. Prepared samples and detectors are irradiated with thermal neutrons. Thereafter, the detector is separated from the sample and etched in their 60-SG KOH solution at 60 ^{° C} for 15 min. As a result of etching, the detector reveals traces of uranium fission fragments, the forms of manifestation of which indicate the prospectivity of the study area for uranium mineralization and (or) environmental pollution.

 In FIG. 1 3 various forms of uranium manifestation are presented, which allow one to judge about uranium mineralization and (or) environmental pollution.

The use of this invention will allow:
to increase the efficiency of exploration, including for hard-to-reach areas due to the simplicity of sampling of plant material and a sharp reduction in its selected volume;
increase the depth of prospecting and exploration;
to search for ore mineralization in the conditions of environmental pollution;
ascertain the extent of the range of environmental pollution.

Claims (4)

1. METHOD FOR SEARCHING URANIUM DEPOSITS AND DETECTING ENVIRONMENTAL POLLUTION OF THE ENVIRONMENT, including selection of plant material, preparation of samples from them and analysis of the distribution of the studied element in them by display on the detector by radiography, characterized in that, in order to increase the detection efficiency of uranium mineralization and or) environmental pollution, the selection of plant leaves is carried out at the end of the growing season, the leaves are subjected to dehydration at 70 - 90 ^o C for 1 2 hours, determine The forms of manifestation of uranium in the structure of leaves and on their surface and by their differences judge the presence of uranium mineralization and (or) environmental pollution.  2. The method according to claim 1, characterized in that the presence of chaotic forms of manifestation of uranium in the structure of the sheet speaks of uranium mineralization.  3. The method according to claim 1, characterized in that the presence of radially radiant forms of manifestation of uranium on the surface of the sheet is judged on environmental pollution.  4. The method according to claim 1, characterized in that the presence of chaotic forms of manifestation of uranium in the structure of the sheet and the presence of radially radiant forms of manifestation of uranium on the surface of the sheet are judged on uranium mineralization with simultaneous environmental pollution.

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