DIRECT-PROSPECTING TECHNOLOGY OF SATELLITE AND PHOTO IMAGES FREQUENCY-RESONANCE PROCESSING: RESULTS OF TESTING WITHIN LARGE BLOCKS AND LOCAL AREAS IN CHINA

Abstract

The results of a reconnaissance survey using direct-prospecting technology of satellite images and photographs frequency-resonance processing within big blocks and local areas in China are presented. Experimental researches of a reconnaissance nature were carried out with the aim of demonstrating the performance, efficiency and information content of direct-prospecting methods. The experimental studies at the Luntan-1 well drilling site show the possibility of direct-prospecting methods using to assess the oil and gas potential of deep and ultra-deep horizons of cross-section. The seismic sections of exploration areas can be used for additional frequency-resonance processing together with satellite and photographic images of survey sites during sites selecting for oil and gas wells drilling. In area of the Yilan impact structure location responses at the frequencies of diamonds, limestones and kimberlites were recorded from the surface. During a cross-section scanning, signal of kimberlites began to be recorded from 609.8 m, and diamonds – from 763 m. When frequency-resonance processing of a photograph of the Yilan crater, responses of basalts, hydrogen and living (healing) water were recorded also from the surface. In the central part of the geothermal springs search area signals of hydrogen, phosphorus, living water and basalts were recorded. The lower edge of the basalts was detected at a depth of 99 km, responses of dolomites were obtained from the interval of 99-218 km, and signals of siliceous rocks were recorded at the surface of 218 km from the lower part of cross-section. During frequency-resonance processing of a fragment of an image with a circle on Qinghai Lake responses of living water, ice, hydrogen and basalts were recorded on the surface. At the Chinese lunar spacecraft Chang'e landing site of the Moon signals of hydrogen and basalts were recorded at the surface. The root of the basalt volcano was identified at a depth of 84 km. At the surveyed drilling site of Baodao 21-1 gas field, responses at gas frequencies were recorded from the surface, as well as in four intervals of the salt section by scanning. Responses were also recorded from the surface at the frequencies of condensate, gas, white phosphorus, and salt. The data of the local areas reconnaissance surveying within coal basin show the possibility of detecting oil, condensate and gas deposits in the deep and ultra-deep horizons of cross-section underneath coal deposits. Materials of experimental studies at the Fuman oil field site indicate the potential possibility and feasibility of direct-prospecting methods using in the process of selecting the most optimal sites of the deep exploratory wells for oil and gas drilling. Helium deposits may be discovered at an ultra-deep well drilling site in the Taklamakan Desert at depths of over 7120 m. By detailed scanning of this cross-section interval, the depths of helium accumulations in the reservoirs can be determined. In general, the super-operative method of integral assessment of oil, gas and ore potential prospects provides the opportunity to significantly speed up and optimize the geological exploration process for fuel and ore minerals. Mobile methods of direct-prospecting technology can also be used to study the deep structure of the structural elements of the Earth, establish the genesis of ring structures, examine volcanic complexes of various types, as well as when performing archaeological research in areas of the ancient settlements location in order to detect and localize local objects that are promising for further excavations. Proven super-mobile technology of satellite images and photographs frequency-resonance processing is recommended for practical use on the territories of different countries for the purpose of preliminary assessment of the prospects for oil and gas content, ore content and water content of poorly studied and unexplored prospecting 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.