{"id":6154,"date":"2016-09-21T10:42:12","date_gmt":"2016-09-21T08:42:12","guid":{"rendered":"http:\/\/www.geology.com.ua\/?page_id=6154"},"modified":"2021-06-21T18:40:31","modified_gmt":"2021-06-21T16:40:31","slug":"geoinformatika-2016-359-58-68","status":"publish","type":"page","link":"http:\/\/www.geology.com.ua\/en\/geoinformatika-2016-359-58-68\/","title":{"rendered":"Geoinformatika 2016; 3(59) : 58-68"},"content":{"rendered":"

Geoinformatika 2016; 3(59) : 58-68\u00a0<\/em>\u00a0<\/em>(in Russian)<\/em>\u00a0\u00a0 <\/em><\/p>\n

RESULTS OF REMOTE SENSING AND GROUND-BASED GEOELECTRICAL INVESTIGATION AT THE SITES OF THE OIL STORAGES LOCATION<\/h4>\n
S.P. Levashov1,2<\/sup>, I.G. Zezekalo3<\/sup>, N.A. Yakymchuk1,2<\/sup>, I.N. Korchagin4<\/sup>, D.N. Bozhezha2<\/sup><\/em><\/h5>\n

1<\/sup><\/em>Institute of Applied Problems of Ecology, Geophysics and Geochemistry, 1 Laboratorny Lane, Kyiv 01133, Ukraine
\n2<\/sup><\/em>Management and Marketing Center of the Institute of Geological Science, NAS of Ukraine, 1 Laboratorny Lane, Kyiv 01133, Ukraine
\n3<\/sup><\/em>NadraSpetstechnology LLC, 20 Independence Sq., Poltava 36003, Ukraine
\n4<\/sup><\/em>Institute of Geophysics, NAS of Ukraine, 32 Palladin Ave., Kyiv 03680, Ukraine, e-mail: korchagin@karbon.com.ua<\/em><\/p>\n

Purpose <\/strong>of the paper is to study the possibility of the mobile direct-prospecting methods using for exploration and delineation of \u201cman-made\u201d fuel accumulations on the underground and ground petroleum storage facilities; to search and localize the vertical channel of deep fluids migration; to improve the methodological application principles of direct-prospecting geophysical methods and techniques for solving the problems of near-surface geophysics.
\nDesign\/methodology\/approach. <\/strong>The experiments were carried out using a mobile direct-prospecting technology that includes the method of frequency-resonance processing of satellite images and ground-based geoelectric methods FSPEF and VERS. Particular methods of this technology are based on the principles of a \u201csubstance\u201d paradigm of geophysical studies and provide the ability to detect and map operatively the anomalous zones of the \u201chydrocarbons deposit (oil, gas and gas condensate)\u201d type. Within the contours of detected the anomalous zones the maximum values of fluid pressure in the reservoirs are estimated by the resonant frequencies of gas at different intervals of the cross-section.
\nFindings. <\/strong>At the first stage of the survey of the underground storage of diesel fuel we carried out frequency-resonance processing of satellite images of its location area. At the second stage we conducted the detailed ground-based works within the storage area, using the geoelectric FSPEF and VERS methods. As a result, the diesel residues of 5621.0 m3<\/sup> and 243.0 m3<\/sup> volume were detected and mapped in two underground tanks. In the areas of other tanks the oil residues were not detected. Within the working area, vertical channel of deep fluids migration was detected and localized, by which gas and \u201clight oil are pumped through the tectonic fractures into the storage territory. At the surveyed area of ground storage, 12 anomalous zones were detected and mapped at the resonant frequencies of fuel samples from drilled wells. Within the contours of the detected anomalous zones, the most prospective areas for drilling wells to extract the \u201clost fuel\u201d were identified by the values of the anomalous response intensity. The presence of man-made fuel accumulations in the contours of the detected anomalous zones was confirmed by drilling.
\nThe practical significance and conclusions.<\/strong> Studies have demonstrated the high efficacy of individual methods of direct-prospecting geophysical technology for exploration and delineation of \u201cman-made\u201d petroleum accumulations. Frequency-resonance processing of satellite images and area survey by FSPEF method allows us to highlight and map areas of oil accumulation, zones of underground water flows migration and high humidity of soil. Methods of images vertical scanning and of VERS sounding permit to determine the depth to the \u201cman-made (lost)\u201d petroleum products, wetlands, underwater streams, boundaries between different rock complexes, suffusion cavities, sinkholes and valleys. This complex of methods will allow us to carry out laboratory research and make field geophysical measurements quickly and in a short period of time, which leads to a significant reduction in the timing of the work of environmental engineering and surveying character.<\/p>\n

Keywords:<\/strong> storage of petroleum products, fuel, oil, gas, well, satellite data, direct search, geoelectric methods, anomaly of the deposit type, remote sensing data processing, interpretation, vertical channel.<\/p>\n

The full text of papers <\/span><\/a> <\/strong><\/em><\/span><\/p>\n

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