SU397081A1 - Quantitative determination method in rocks - Google Patents

Description

The invention relates to methods for quantifying elements in rocks that have the property of resonant absorption of supraheat neutrons, and can be used in prospecting, exploration and development of the field of minerals.

There is a known method for determining in poroips samples of elements from resonance neutrons.

The essence of this method is that the powder sample is irradiated with neutrons from an isotopic source; The induced radioactivity of the applied resonance indicators is measured and, judging by its value, the content of an element in the sample that has the property of resonant absorption of suparly neutrons is determined. Indicators made of the material of the element being determined are used as a detector of the resistive neutrons.

The disadvantage of this method is that when conducting research in natural occurrence (for example, during logging), the neutron properties of rocks (humidity, density, presence of neutron-absorbing elements), the design of residues have a significant effect on the number of resonant neutrons coming to the detector. hai instrument and well construction. To take this into account, it is necessary to carry out additional time-consuming studies (to determine the humidity, density, chemical composition of the rock, to build additional tents). Therefore, it is difficult to apply the well-known in particular to studies in natural occurrence.

The aim of the invention is to develop a method that eliminates the influence of neutron properties of the medium, well construction and equipment on the results of quantitative determination in rocks of elements that have the property of resonant neutron capture. To do this, the neutron flux density is measured with an energy slightly insignificant (for example, by 2-10 electron volts) than the resonance absorption energy for the element being detected and, relative to the two measured fluxes, the concentration determined is determined.

The essence of the invention is the Speducci

It is known that the effect of neutron properties of rocks and ores, well construction and other factors affects in the same way resonant neutrons when the neutron energy varies from 1 to 100 eV.

It is obvious that the ratio of neutron fluxes of two closely lying resonant energies is practically independent of the humidity and density of the rock, the well design and its geometry, and the design of the well device. In order to quantify an element in a rock that has the property of resonant neutron capture, for example, indie, it is necessary to measure the schiever resonance neutrons (1.46 eV) and the nearby, but higher resonance neutrons, such as resonant silver absorption neutrons (5.4 eV). The energy of the additional resonance must be higher than the energy of the main resonance of the element being determined. The resonance of the element being determined and the additional resonance should not overlap. The medium should not contain large connectors of elements that have resonances that overlap with the full-resonance. In order to reduce the influence of the absorbed properties of elements with the absorption of suprathermal neutrons according to the 1 / V law (boron, lithium, etc.), the resonance energies should not differ by more than 3-5 times.

The proposed method is carried out as follows.

The rock is irradiated with neutrons from an isotopic or pulsed source} scale. Then, the flux density of epithermal neutrons (U,) is measured. The detector is screened with a filter that is opaque to thermal neutrons and transparent to epithermal ones. Such a filter is, for example, cadmium. The imoTHOCTb flux of epithermal neutrons is measured when the detector is screened with a foil of a substance to be determined (U,). Then, the flux density of the resonant neutrons corresponding to the resonant absorption energy determined by the element (Ui -U) is calculated. The flux density of epithermal neutrons is measured when the detector is screened with a foil of a substance with a resonant capture energy higher than

resonant capture of a detectable element (CL Post after this indicates the flux density of resonant neutrons (Ut-LQ and the ratio rx. Then, on the calibration curve, determine: the concentration center of the resonant absorber in the rock.

The calibration curve is a relationship relationship. concentration of a resonant absorber in a rock (for example, indie) at different values of the counting rate of resonant neutrons with an energy slightly

greater than the resonance capture energy for the Division e of the south element (for example, resonant neutrons of silver).

Claims (1)

20 Formula of Invention Qtoco6 quantification in rocks of elements with the property of resonant absorption of suprathermal neutrons, based on measuring the neutron flux density with resonant absorption energy, is given a detectable element, characterized in that, to eliminate the influence of interfering factors on the results of determinations, the flux density is measured neutrons with energies greater than the energy of the resonant absorption for the element being determined (for example, by 2–10 electron volts), and judging by the ratio of the two measured fluxes concentrations of the element being determined.