SU1383259A1 - Method of detecting inhomogeneities with different thermophysical properties - Google Patents

Abstract

The invention relates to geothermal exploration methods and can be used in the search for minerals. The goal is to expand the possibilities of the method due to the output of NINs of low-contrast objects in terms of their thermophysical properties. The method is implemented by measuring the thermal floor twice during one night while optimizing the seasonal time for determining and interpreting the resulting field depending on the position of the night inversion point. With s

Description

The invention relates to geothermal methods of exploration and can be used in the search for minerals, geological engineering. explorations, etc.

The purpose of the invention is to expand the possibilities of the method of detecting underground: inhomogeneities due to the detection of low contrast lio thermophysical properties of objects.

The method is implemented as follows.

In the study area (polygon), a double thermal distance survey of the Earth's surface was performed. The first measurement is carried out after sunset, and the second in the predawn time before sunrise.

Within the landfill site, reference areas are selected, which are characterized by the presence of rocks with different thermophysical properties. In selected areas, for example, using regime

observations, determine the time of the night inversion of temperature contrasts, i.e. the time when the temperatures of rocks with different thermal inertia become equal during the night.

B depending on the presence or ot-. In the presence of the night inversion, the processing of the data obtained after conducting a double remote thermal heat pumping station is carried out as follows.

In the presence of nighttime inversion of temperature contrasts, the resulting thermal field is determined by the difference between the obtained temperatures, and, at its origin, by their sum. According to the anomalous values of the resulting heat field, a judgment is made about the presence of underground inhomogeneities.

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The choice of the optimal seasonal period for remote measurements is also made taking into account the time of the night inversion of temperature contrasts of rocks with different thermal inertia.

In the presence of a night inversion, measurements are made during the period when the inversion time is as far as possible from the setting of the Sun. In the absence of nocturnal inversion, measurements were taken during the period of the greatest temperature differences of rocks in the reference area during the night.

The use of the method provides detection of heterogeneities of low contrast in thermal and physical properties.

Formula of invention

 A method for detecting underground inhomogeneities with different thermal properties, including twice conducting remote thermal imaging of the Earth’s surface, one of which is done in the predawn time, processing the data obtained and judging the presence of inhomogeneity, characterized in detection of low-contrast thermal properties of objects, the second measurement is carried out after sunset, the time of the night inversion of temperature contrast is determined in breeds with different thermal inertia, in the presence of nocturnal inversion resulting thermal field determined po- temperature difference obtained nk, and in its absence - in their sum.

Claims (1)

SUMMARY OF THE INVENTION • A method for detecting underground inhomogeneities with various thermophysical properties, including two-time remote sensing of the Earth’s surface, one of which is carried out at dawn, processing the data and judging the presence of heterogeneities, characterized in that, with the aim of expanding, method by identifying objects that are of low contrast in terms of thermophysical properties, the second measurement is carried out after sunset, the time of night inversion of the temperature is determined natural contrasts of rocks with different thermal inertia, in the presence of night inversion, the resulting thermal field determines the differences in the temperatures obtained, and in the absence of them, by their sum.