MOBILE METHODS OF FREQUENCY-RESONANCE PROCESSING OF SATELLITE IMAGES AND PHOTO IMAGES: RESULTS OF TESTING ON OFFSHORE DRILLING SITES
Keywords:
direct searches, degassing, vertical channel, volcano, deep structure, cross-section, oil, gas, hydrogen, amber, chemical elements, well, satellite data, mobile technology, remote sensing data processing, interpretation, vertical soundingAbstract
Experimental studies using direct-prospecting methods have been carried out in various regions of the oceans with the aim of demonstrating their performance, efficiency and potential when conducting prospecting for oil and gas. The low-cost technology being developed includes modified methods for frequency-resonance processing and decoding of satellite images and photo images, vertical electric-resonance sounding of a cross-section, as well as a method for integrated assessment of the prospects of oil and gas potential and ore content of prospecting blocks and local areas. Studies at oil and gas offshore drilling sites have confirmed the feasibility of additional work using direct-prospecting methods when selecting sites for their laying. Within deep channels (volcanoes), filled with sedimentary rocks of 1-6 groups, signals (responses) are almost always recorded at the resonant frequencies of hydrocarbons and, in many cases, amber. Signals at the frequencies of oil, condensate and gas are also recorded quite often in volcanoes, filled with limestone. In volcanic complexes, filled with sedimentary rocks of 8–10 groups (dolomites, marls, siliceous rocks), responses at frequencies of oil, condensate, and gas have never been recorded. The results of the work testify to the prospects of the deep horizons of cross-section for oil and gas. In many areas of the survey, the existence of a border at a depth of 57 km was confirmed, in the region of which there is a synthesis of oil, condensate, gas and amber from hydrogen and carbon migrating from below. Data have also been obtained that indicate of water synthesis at a depth of 69 km in volcanic complexes of a certain type.
The results of the studies indicate the efficiency, effectiveness and feasibility of practical application of frequency-resonance methods for satellite images processing in the search and exploration of ore and combustible minerals. The practical application of direct-prospecting technologies will help accelerate and optimize the oil and gas exploration process.
