ON PROSPECTS OF HYDROCARBONS ACCUMULATIONS DETECTING IN TRADITIONAL RESERVOIRS IN DEEP HORIZONS OF CROSS-SECTION WITHIN SHALE BASINS

Abstract

The results of a reconnaissance survey using direct-prospecting technology of satellite images and photographs frequency-resonance processing within some areas of shale gas production in the USA, Argentina, England and shale oil play in the Williston Basin in the north of the United States are presented. The investigations were conducted with the aim of developing and improving the methodology of mobile direct-prospecting methods applying at various stages of prospecting and exploration for ore and combustible minerals, as well as water. The deep channels for fluids, chemical elements and minerals migration, filled with 1-6 groups of sedimentary rocks, were found in all surveyed shale gas production sites. The received measurement data of the work carried out can be considered as additional evidence in favor of the concept of deep (abiogenic) synthesis of hydrocarbons, including those in shale formations. Within the survey site in England a significant number of local zones of visible hydrogen degassing are located. It is advisable to conduct additional research on these sites in order to study these local zones in more detail. Experimental studies within area of shale oil in the Williston Basin also confirmed the presence of hydrocarbon deposits in the deep horizons of cross-section. To the east of Williston Basin, a large cluster of basalt volcanic structures with hydrogen and living (healing) water, as well as the process of hydrogen and phosphorus migration into the atmosphere were revealed by instrumental measurements. In general, the materials of the experimental work carried out can be considered as additional evidence in favor of the volcanic model of formation of structural elements and the external appearance of the Earth's surface, as well as deposits of ore and combustible minerals and water. The research results indicate the feasibility of using mobile technology of frequency-resonance processing and decoding of satellite images and photographs for the detection and localization of oil and gas accumulation zones within large blocks and local areas. The use of super-operational and low-cost direct-prospecting technology will significantly speed up the exploration process for oil, gas, natural hydrogen and ore minerals, as well as reduce the financial costs of its implementation.