RU2010137066A - METHOD OF GEOCHEMICAL EXPLORATION - Google Patents

Abstract

 The method of geochemical exploration, including sampling of rocks and vegetation along waterways, separation of rock samples into fractions and their analysis for the content of chemical elements, rock samples are divided into two fractions - more than 0.1 mm and less than 0.1 mm, the first is analyzed for Si, Al, Ti, Y, and the second on Hg, and vegetation samples are analyzed on Ba, Cu, Pb, Zn, Ag, the analysis results of analyzes of fractions of more than 0.1 mm and vegetation samples are converted to the corresponding additive indicators of normalized concentrations, maps are built distribution specified addy and the indices Hg and identify the objects characterized by the distribution of the anomalous values of the additive indices and Hg in the series Si, Al, Ti, Y-Ba, Cu, Pb, Zn, Ag-Hg-Ba, Cu, Pb, Zn, Ag-Si, Al, Ti, Y, with oil and gas prospective sections, analysis for methane content by determining the coordinates of gas formation, determining the coordinates of gas formation, with the placement in the water environment of stations equipped with methane detection sensors, by which the concentration of methane in the water column is measured by changing the resistance of the active sensor layer The output voltage is converted to the output (measured) voltage, the coordinates (geographical) of the gas formation are determined by the position of the gas formation in the moving coordinate system of the buoy station, characterized in that the relief of the water area is preliminarily surveyed, the flooded river valleys crossing the continental shelf are identified by the results of the survey, perform sounding of bottom sediments with acoustic pulses and measure the time interval between separate signals; perform terrain relief restoration

Claims (1)

The method of geochemical exploration, including sampling of rocks and vegetation along waterways, separation of rock samples into fractions and their analysis for the content of chemical elements, rock samples are divided into two fractions - more than 0.1 mm and less than 0.1 mm, the first is analyzed for Si, Al, Ti, Y, and the second on Hg, and vegetation samples are analyzed on Ba, Cu, Pb, Zn, Ag, the analysis results of analyzes of fractions of more than 0.1 mm and vegetation samples are converted to the corresponding additive indicators of normalized concentrations, maps are built distribution specified addy and the indices Hg and identify the objects characterized by the distribution of the anomalous values of the additive indices and Hg in the series Si, Al, Ti, Y-Ba, Cu, Pb, Zn, Ag-Hg-Ba, Cu, Pb, Zn, Ag-Si, Al, Ti, Y, with oil and gas prospective sections, analysis for methane content by determining the coordinates of gas formation, determining the coordinates of gas formation, with the placement in the water environment of stations equipped with methane detection sensors, by which the concentration of methane in the water column is measured by changing the resistance of the active sensor layer The output voltage is converted to the output (measured) voltage, the coordinates (geographical) of the gas formation are determined by the position of the gas formation in the moving coordinate system of the buoy station, characterized in that the relief of the water area is preliminarily surveyed, the flooded river valleys crossing the continental shelf are identified by the results of the survey, perform sounding of bottom sediments with acoustic pulses and measure the time interval between separate signals; perform terrain relief restoration , determine the correlation length of dynamic variables describing the energy and / or impulse flows from the top of the bottom sediment to the bottom ο from the bottom of the bottom sediment to a depth of 2-4 km, analyze the structural and denudation forms on the relief with the release of terrigenous sediments, when identifying the prerequisites for the existence of oil and gas areas, they perform sounding of the soil by detecting the mechanisms of spin-phonon and spin-photon interactions and the effects of dynamic memory in sea water, when impact on the object of study with a coherent pulsed proton spin echo, while performing tomographic restoration of the image of the studied geological section of the soil at the level of prismatic crystals, additionally measure the resistance and friction of the bottom soil, which determine the strength characteristics, which establish the area and depth of pollution, resistance coefficients and friction is measured by a penetrometer installed at the bottom of the seismic station, and the mouth At least two bottom seismic stations are acquired by means of which microseismic waves are recorded. When analyzing microseismic waves, longitudinal microseismic waves are extracted and transverse microseismic waves are excluded from the analysis by means of a phase amplitude filter, while all harmonic oscillations recorded by two seismic waves are selected when analyzing longitudinal microseismic waves. stations simultaneously and having almost equal amplitudes, while the angle between arrival directions and microseismic signals simultaneously from two seismic stations, one of which is located normally from 1 to 10 degrees, when spills of a transported liquid product with the formation of an oil spill are detected, the processes of oil spreading and transfer are calculated taking into account the hydrodynamic parameters of the aqueous medium.