{"id":1985,"date":"2015-01-22T12:31:57","date_gmt":"2015-01-22T10:31:57","guid":{"rendered":"http:\/\/www.geology.com.ua\/?page_id=1985"},"modified":"2016-07-05T13:19:35","modified_gmt":"2016-07-05T11:19:35","slug":"1985-2","status":"publish","type":"page","link":"http:\/\/www.geology.com.ua\/en\/%d0%b2%d0%b8%d0%bf%d1%83%d1%81%d0%ba%d0%b8\/2014-%d1%80%d1%96%d0%ba\/%e2%84%96-452-%e2%80%a2-2014\/1985-2\/","title":{"rendered":"(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 4(52) : 5-29"},"content":{"rendered":"

Geoinformatika 2014; 4(52) : 5-29\u00a0 (in Russian)<\/p>\n

MOBILE GEOPHYSICAL TECHNOLOGIES:\u00a0EXPERIMENTAL STUDY OF POSSIBILITY OF APPLICATION FOR HYDROCARBON ACCUMULATIONS PROSPECTING WITHIN AREAS OF SHALE SPREADING IN EASTERN EUROPE<\/h4>\n

S.P. Levashov<\/em>1,2<\/sup>,<\/em>\u00a0N.A. Yakymchuk<\/em>1,2<\/sup>,<\/em>\u00a0I.N. Korchagin<\/em>3<\/sup>,<\/em>\u00a0D.N. Bozhezha2<\/sup><\/em><\/h5>\n

1<\/sup>Institute of Applied Problems of Ecology, Geophysics and Geochemistry, Laboratorny lane, 1, Kyiv 01133, Ukraine
\n<\/em>2<\/sup>Management and Marketing Center of Institute of Geological Science NAS Ukraine,\u00a0<\/em>Laboratorny lane, 1, Kyiv 01133, Ukraine
\n3<\/sup>Institute of Geophysics of Ukraine National Academy of Science,\u00a0 Palladin Ave., 32, Kiev 03680, Ukraine,\u00a0e-mail: korchagin@karbon.com.ua<\/em><\/p>\n

Purpose.<\/strong> Exploring the possibility of mobile and operational geophysical technologies using for the detection and mapping within the shale spreading areas of local areas with increased concentrations of hydrocarbon accumulations (oil, gas and gas condensate), within which the industrial (commercial) inflows of hydrocarbons can be obtained from boreholes. Experimental studies conducting within shale complexes spreading in Ukraine, Poland, Romania, Lithuania and England.
\nDesign\/methodology\/approach.<\/strong> Experiments were carried out with the mobile technology of frequency-resonance processing and interpretation of remote sensing data using, which is the \u201cdirect\u201d method of oil and gas exploration and operates within the \u201csubstantial\u201d paradigm of geophysical investigations [17]. The technologies and methods, developed on the principles of this paradigm, are aimed at the searching a particular (desired in each case) substance \u2013 oil, gas, condensate, gold, zinc, uranium, etc.
\nFindings.<\/strong> The anomalous zones of the \u201creservoir of gas\u201d (\u201cgas, oil\u201d) type were detected and mapped within the surveyed license blocks. Parameters of many anomalous zones (areas and maximum estimates of fluid pressure in the reservoirs) allow us to classify them as promising objects, the probability of industrial (commercial) HC inflows from which is relatively high. The observed anomalies should be considered as priority local areas for detailed study by geophysical methods and drilling. This is essentially the \u201cSweet spots\u201d zones. The received estimates of maximum values of reservoir pressure within the observed anomalous zones vary in a fairly wide range. This indicates that the projected productive horizons can be located both above and below the shale complexes. Therefore, the practically all (available for drilling) interval of the cross-section should be studied, when for the hydrocarbon accumulations prospecting within areas of shale spreading. Anomalous zones with very low values of fluid pressure in the reservoirs should not be considered as priority targets for detailed study.
\nPractical value\/implications.<\/strong> The development of the surveyed license blocks starting from detected anomalous zones will allow, in general, significantly reduce the harmful effects (ecological pressure) on the environment. Mobile technology of frequency-resonance processing and interpretation (decoding) of remote sensing data allows to detect and map operatively the \u201cSweet spots\u201d zones within the shale and other unconventional reservoirs spreading.<\/p>\n

Keywords:<\/strong> mobile technology, anomaly of deposit type, oil, gas, gas-condensate, shale, coal-bearing rocks, fault zone, satellite data, direct prospecting, processing of remote sensing data, interpretation.<\/p>\n

The full text of papers\u00a0<\/strong><\/em><\/a><\/span><\/span><\/p>\n

References<\/strong><\/a><\/p>\n

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    \n
  1. Bembel R.M., Megerya V.M., Bembel S.R. Geosolitony: funktsional\u2019naya sistema Zemli, kontseptsiya razvedki i razrabotki mestorozhdeniy uglevodorodov<\/em> [Geosolitony: functional system of the Earth, the concept of exploration and exploitation of hydrocarbons]. Tyumen\u2019: Vektor Buk<\/em>, 2003, 344 p.<\/li>\n
  2. Valyaev B.M. Priroda i osobennosti prostranstvennogo rasprostranenija netradicionnyh resursov uglevodorodov i ih skoplenij <\/em>[Nature and characteristics of the spatial distribution of unconventional hydrocarbon resources and their accumulations]. Gazovaja promyshlennost\u2019, Netradicionnye resursy nefti i gaza – prilozhenie k zhurnalu<\/em> [Gas industry, Unconventional oil and gas resources – supplement to the journal], 2012, pp. 9-16.<\/li>\n
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    \/\/<\/p>","protected":false},"excerpt":{"rendered":"

    Geoinformatika 2014; 4(52) : 5-29\u00a0 (in Russian) MOBILE GEOPHYSICAL TECHNOLOGIES:\u00a0EXPERIMENTAL STUDY OF POSSIBILITY OF APPLICATION FOR HYDROCARBON ACCUMULATIONS PROSPECTING WITHIN AREAS OF SHALE SPREADING IN EASTERN EUROPE S.P. Levashov1,2,\u00a0N.A. Yakymchuk1,2,\u00a0I.N. Korchagin3,\u00a0D.N. Bozhezha2 1Institute of Applied Problems of Ecology, Geophysics and Geochemistry, Laboratorny lane, 1, Kyiv 01133, Ukraine 2Management and Marketing Center of Institute of Geological Science NAS Ukraine,\u00a0Laboratorny lane, 1, Kyiv 01133, Ukraine 3Institute of Geophysics of Ukraine National Academy of Science,\u00a0 Palladin Ave., 32, Kiev 03680, Ukraine,\u00a0e-mail: korchagin@karbon.com.ua Purpose. Exploring the possibility of mobile and operational geophysical technologies using for the detection and mapping within the shale spreading areas of local areas with increased concentrations of hydrocarbon accumulations (oil, gas and gas condensate), within which the industrial (commercial) inflows of hydrocarbons can be obtained from boreholes. Experimental studies conducting within shale complexes spreading in Ukraine, Poland, Romania, Lithuania and England. Design\/methodology\/approach. Experiments were carried out with the mobile technology of frequency-resonance processing and interpretation of remote sensing data using, which is the \u201cdirect\u201d method of oil and gas exploration and operates within the \u201csubstantial\u201d paradigm of geophysical investigations [17]. The technologies and methods, developed on the principles of this paradigm, are aimed at the searching a particular (desired in each case) substance \u2013 oil, gas, condensate, gold, zinc, uranium, etc. Findings. The anomalous zones of the \u201creservoir of gas\u201d (\u201cgas, oil\u201d) type were detected and mapped within the surveyed license blocks. Parameters of many anomalous zones (areas and maximum estimates of fluid pressure in the reservoirs) allow us to classify them as promising objects, the probability of industrial (commercial) HC inflows from which is relatively high. The observed anomalies should be considered as priority local areas for detailed study by geophysical methods and drilling. This is essentially the \u201cSweet spots\u201d zones. The received estimates of maximum values of reservoir pressure within the observed anomalous zones vary in a fairly wide range. This indicates that the projected productive horizons can be located both above and below the shale complexes. Therefore, the practically all (available for drilling) interval of the cross-section should be studied, when for the hydrocarbon accumulations prospecting within areas of shale spreading. Anomalous zones with very low values of fluid pressure in the reservoirs should not be considered as priority targets for detailed study. Practical value\/implications. The development of the surveyed license blocks starting from detected anomalous zones will allow, in general, significantly reduce the harmful effects (ecological pressure) on the environment. Mobile technology of frequency-resonance processing and interpretation (decoding) of remote sensing data allows to detect and map operatively the \u201cSweet spots\u201d zones within the shale and other unconventional reservoirs spreading. Keywords: mobile technology, anomaly of deposit type, oil, gas, gas-condensate, shale, coal-bearing rocks, fault zone, satellite data, direct prospecting, processing of remote sensing data, interpretation. The full text of papers\u00a0 References Bembel R.M., Megerya V.M., Bembel S.R. Geosolitony: funktsional\u2019naya sistema Zemli, kontseptsiya razvedki i razrabotki mestorozhdeniy uglevodorodov [Geosolitony: functional system of the Earth, the concept of exploration and exploitation of hydrocarbons]. Tyumen\u2019: Vektor Buk, 2003, 344 p. Valyaev B.M. Priroda i osobennosti prostranstvennogo rasprostranenija netradicionnyh resursov uglevodorodov i ih skoplenij [Nature and characteristics of the spatial distribution of unconventional hydrocarbon resources and their accumulations]. Gazovaja promyshlennost\u2019, Netradicionnye resursy nefti i gaza – prilozhenie k zhurnalu [Gas industry, Unconventional oil and gas resources – supplement to the journal], 2012, pp. 9-16. Gluhmanchuk E.D., Krupizkyi V.V., Leontyevskyi A.V. Treshhinno-blokovaja struktura mestorozhdenij kak osnovnaja prichina nizkoj jeffektivnosti geologo-gidrodinamicheskih modelej [Fracture-block structure of deposits as the main reason of low\u00a0 efficiency of geological and hydrodynamic models]. Nedropol\u2019zovanie XXI vek [Nedropolzovanie XXI century], 2014, no. 3, pp. 64-67. Kudelsky A.V. Geologo-geokhimicheskaya nesostoyatel\u2019nost\u2019 gazoslantsevogo buma [Geological-geochemical inconsistency of gas-shale boom]. Geofizicheskij zhurnal [Geophysical Journal], 2014, vol. 36, no. 1, pp. 105-118. Kovalev N.I., Gokh V.A., Ivashchenko P.N., Soldatova S.V. Opyt prakticheskogo ispol\u2019zovaniya apparatury kompleksa \u201cPoisk\u201d dlya obnaruzheniya i okonturivaniya uglevodorodnykh mestorozhdeniy [Experience in the practical use of the \u201cPoisk\u201d equipment complex to detect and delineate hydrocarbon deposits]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 4, pp. 46-51. Kusov B.R. Genezis nekotorykh uglerodsoderzhashchikh poleznykh iskopaemykh (Ot metana do almaza): Monografiya. Izdanie vtoroe, dopolnennoe [Genesis some carbonaceous minerals (From methane to diamond): Monograph. Second edition, expanded]. Vladikavkaz: IPO SOIGSI, 2011, 195 p. Kusov B.R. Gaz (metan) prirodnyj, neftjanoj, ugol\u2019nyj, slancevyj – chto vse jeto? [Gas (methane) natural, oil-associated gas, coal gas, shale gas – what it all?]. Nedropol\u2019zovanie XXI vek [Nedropolzovanie XXI century], 2014, no. 3, pp. 88-91. Kusov B.R. O nekotoryh dolgozhivushhih, no v korne oshibochnyh dogmah v geologii [About some long-lived, but fundamentally erroneous dogma in geology]. Vestnik Vladikavkazskogo nauchnogo centra [Bulletin of Vladikavkaz Scientific Centre], 2014, vol. 14, no. 2, pp. 35-42. Levashov S.P., Yakymchuk M.A. Korchagin I.N. Elektrorezonansnoe zondirovanie i ego ispol\u2019zovanie dlya resheniya zadach ekologii i inzhenernoy geologii [Electric-resonance sounding method and its application for solving the environmental and engineering geology problems]. Geologicheskiy zhurnal [Geological journal], 2003, no. 4, pp. 24-28. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Degtyar R.V., Bozhezha D.N. Obnaruzhenie i kartirovanie geoelektricheskimi metodami zon povyshennogo gazonasyshcheniya na ugol\u2019nykh shakhtakh [Detection and mapping by geoelectric methods of zones with high gas saturation on the coal mines]. Geofizika, EAGO [Geophysika, EAGO], 2006, no. 2, pp. 58-63. Levashov S.P., Yakymchuk N.A., Korchagin I.N. Ekspress-tekhnologiya \u201cpryamykh\u201d poiskov i razvedki skopleniy uglevodorodov geoelektricheskimi metodami: rezul\u2019taty prakticheskogo primeneniya v 2001-2005 gg. [Express technology of \u201cdirect\u201d prospecting and exploration for hydrocarbon accumulations by geoelectric methods: results of practical application in 2001-2005]. Geoinformatika [Geoinformatics (Ukraine)], 2006, no. 1, pp. 31-43. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Razin D.V., Yuzlenko A.T. O vozmozhnosti kartirovaniya geoelektricheskimi metodami skopleniy uglevodorodov v kristallicheskikh porodakh [On the possibility of hydrocarbons accumulations mapping in crystalline rocks by geoelectric methods]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 1, pp. 22-32. Levashov S.P., Yakymchuk N.A., Korchagin I.N. Novye vozmozhnosti operativnoj ocenki perspektiv neftegazonosnosti razvedochnyh ploshhadej, trudnodostupnyh i udalennyh territorij, licenzionnyh blokov [New opportunities for rapid assessment of the hydrocarbon potential of exploration areas, difficult of access and remote areas, and license blocks]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 3, pp. 22-43. Levashov S.P., Yakymchuk N.A., Korchagin I.N. […]<\/p>\n","protected":false},"author":2,"featured_media":0,"parent":1951,"menu_order":0,"comment_status":"open","ping_status":"open","template":"","meta":{"footnotes":""},"class_list":["post-1985","page","type-page","status-publish","hentry"],"yoast_head":"\n(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 4(52) : 5-29 - \u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"http:\/\/www.geology.com.ua\/en\/\u0432\u0438\u043f\u0443\u0441\u043a\u0438\/2014-\u0440\u0456\u043a\/\u2116-452-\u2022-2014\/1985-2\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 4(52) : 5-29 - \u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb\" \/>\n<meta property=\"og:description\" content=\"Geoinformatika 2014; 4(52) : 5-29\u00a0 (in Russian) MOBILE GEOPHYSICAL TECHNOLOGIES:\u00a0EXPERIMENTAL STUDY OF POSSIBILITY OF APPLICATION FOR HYDROCARBON ACCUMULATIONS PROSPECTING WITHIN AREAS OF SHALE SPREADING IN EASTERN EUROPE S.P. Levashov1,2,\u00a0N.A. Yakymchuk1,2,\u00a0I.N. Korchagin3,\u00a0D.N. Bozhezha2 1Institute of Applied Problems of Ecology, Geophysics and Geochemistry, Laboratorny lane, 1, Kyiv 01133, Ukraine 2Management and Marketing Center of Institute of Geological Science NAS Ukraine,\u00a0Laboratorny lane, 1, Kyiv 01133, Ukraine 3Institute of Geophysics of Ukraine National Academy of Science,\u00a0 Palladin Ave., 32, Kiev 03680, Ukraine,\u00a0e-mail: korchagin@karbon.com.ua Purpose. Exploring the possibility of mobile and operational geophysical technologies using for the detection and mapping within the shale spreading areas of local areas with increased concentrations of hydrocarbon accumulations (oil, gas and gas condensate), within which the industrial (commercial) inflows of hydrocarbons can be obtained from boreholes. Experimental studies conducting within shale complexes spreading in Ukraine, Poland, Romania, Lithuania and England. Design\/methodology\/approach. Experiments were carried out with the mobile technology of frequency-resonance processing and interpretation of remote sensing data using, which is the \u201cdirect\u201d method of oil and gas exploration and operates within the \u201csubstantial\u201d paradigm of geophysical investigations [17]. The technologies and methods, developed on the principles of this paradigm, are aimed at the searching a particular (desired in each case) substance \u2013 oil, gas, condensate, gold, zinc, uranium, etc. Findings. The anomalous zones of the \u201creservoir of gas\u201d (\u201cgas, oil\u201d) type were detected and mapped within the surveyed license blocks. Parameters of many anomalous zones (areas and maximum estimates of fluid pressure in the reservoirs) allow us to classify them as promising objects, the probability of industrial (commercial) HC inflows from which is relatively high. The observed anomalies should be considered as priority local areas for detailed study by geophysical methods and drilling. This is essentially the \u201cSweet spots\u201d zones. The received estimates of maximum values of reservoir pressure within the observed anomalous zones vary in a fairly wide range. This indicates that the projected productive horizons can be located both above and below the shale complexes. Therefore, the practically all (available for drilling) interval of the cross-section should be studied, when for the hydrocarbon accumulations prospecting within areas of shale spreading. Anomalous zones with very low values of fluid pressure in the reservoirs should not be considered as priority targets for detailed study. Practical value\/implications. The development of the surveyed license blocks starting from detected anomalous zones will allow, in general, significantly reduce the harmful effects (ecological pressure) on the environment. Mobile technology of frequency-resonance processing and interpretation (decoding) of remote sensing data allows to detect and map operatively the \u201cSweet spots\u201d zones within the shale and other unconventional reservoirs spreading. Keywords: mobile technology, anomaly of deposit type, oil, gas, gas-condensate, shale, coal-bearing rocks, fault zone, satellite data, direct prospecting, processing of remote sensing data, interpretation. The full text of papers\u00a0 References Bembel R.M., Megerya V.M., Bembel S.R. Geosolitony: funktsional\u2019naya sistema Zemli, kontseptsiya razvedki i razrabotki mestorozhdeniy uglevodorodov [Geosolitony: functional system of the Earth, the concept of exploration and exploitation of hydrocarbons]. Tyumen\u2019: Vektor Buk, 2003, 344 p. Valyaev B.M. Priroda i osobennosti prostranstvennogo rasprostranenija netradicionnyh resursov uglevodorodov i ih skoplenij [Nature and characteristics of the spatial distribution of unconventional hydrocarbon resources and their accumulations]. Gazovaja promyshlennost\u2019, Netradicionnye resursy nefti i gaza – prilozhenie k zhurnalu [Gas industry, Unconventional oil and gas resources – supplement to the journal], 2012, pp. 9-16. Gluhmanchuk E.D., Krupizkyi V.V., Leontyevskyi A.V. Treshhinno-blokovaja struktura mestorozhdenij kak osnovnaja prichina nizkoj jeffektivnosti geologo-gidrodinamicheskih modelej [Fracture-block structure of deposits as the main reason of low\u00a0 efficiency of geological and hydrodynamic models]. Nedropol\u2019zovanie XXI vek [Nedropolzovanie XXI century], 2014, no. 3, pp. 64-67. Kudelsky A.V. Geologo-geokhimicheskaya nesostoyatel\u2019nost\u2019 gazoslantsevogo buma [Geological-geochemical inconsistency of gas-shale boom]. Geofizicheskij zhurnal [Geophysical Journal], 2014, vol. 36, no. 1, pp. 105-118. Kovalev N.I., Gokh V.A., Ivashchenko P.N., Soldatova S.V. Opyt prakticheskogo ispol\u2019zovaniya apparatury kompleksa \u201cPoisk\u201d dlya obnaruzheniya i okonturivaniya uglevodorodnykh mestorozhdeniy [Experience in the practical use of the \u201cPoisk\u201d equipment complex to detect and delineate hydrocarbon deposits]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 4, pp. 46-51. Kusov B.R. Genezis nekotorykh uglerodsoderzhashchikh poleznykh iskopaemykh (Ot metana do almaza): Monografiya. Izdanie vtoroe, dopolnennoe [Genesis some carbonaceous minerals (From methane to diamond): Monograph. Second edition, expanded]. Vladikavkaz: IPO SOIGSI, 2011, 195 p. Kusov B.R. Gaz (metan) prirodnyj, neftjanoj, ugol\u2019nyj, slancevyj – chto vse jeto? [Gas (methane) natural, oil-associated gas, coal gas, shale gas – what it all?]. Nedropol\u2019zovanie XXI vek [Nedropolzovanie XXI century], 2014, no. 3, pp. 88-91. Kusov B.R. O nekotoryh dolgozhivushhih, no v korne oshibochnyh dogmah v geologii [About some long-lived, but fundamentally erroneous dogma in geology]. Vestnik Vladikavkazskogo nauchnogo centra [Bulletin of Vladikavkaz Scientific Centre], 2014, vol. 14, no. 2, pp. 35-42. Levashov S.P., Yakymchuk M.A. Korchagin I.N. Elektrorezonansnoe zondirovanie i ego ispol\u2019zovanie dlya resheniya zadach ekologii i inzhenernoy geologii [Electric-resonance sounding method and its application for solving the environmental and engineering geology problems]. Geologicheskiy zhurnal [Geological journal], 2003, no. 4, pp. 24-28. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Degtyar R.V., Bozhezha D.N. Obnaruzhenie i kartirovanie geoelektricheskimi metodami zon povyshennogo gazonasyshcheniya na ugol\u2019nykh shakhtakh [Detection and mapping by geoelectric methods of zones with high gas saturation on the coal mines]. Geofizika, EAGO [Geophysika, EAGO], 2006, no. 2, pp. 58-63. Levashov S.P., Yakymchuk N.A., Korchagin I.N. Ekspress-tekhnologiya \u201cpryamykh\u201d poiskov i razvedki skopleniy uglevodorodov geoelektricheskimi metodami: rezul\u2019taty prakticheskogo primeneniya v 2001-2005 gg. [Express technology of \u201cdirect\u201d prospecting and exploration for hydrocarbon accumulations by geoelectric methods: results of practical application in 2001-2005]. Geoinformatika [Geoinformatics (Ukraine)], 2006, no. 1, pp. 31-43. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Razin D.V., Yuzlenko A.T. O vozmozhnosti kartirovaniya geoelektricheskimi metodami skopleniy uglevodorodov v kristallicheskikh porodakh [On the possibility of hydrocarbons accumulations mapping in crystalline rocks by geoelectric methods]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 1, pp. 22-32. Levashov S.P., Yakymchuk N.A., Korchagin I.N. Novye vozmozhnosti operativnoj ocenki perspektiv neftegazonosnosti razvedochnyh ploshhadej, trudnodostupnyh i udalennyh territorij, licenzionnyh blokov [New opportunities for rapid assessment of the hydrocarbon potential of exploration areas, difficult of access and remote areas, and license blocks]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 3, pp. 22-43. Levashov S.P., Yakymchuk N.A., Korchagin I.N. […]\" \/>\n<meta property=\"og:url\" content=\"http:\/\/www.geology.com.ua\/en\/\u0432\u0438\u043f\u0443\u0441\u043a\u0438\/2014-\u0440\u0456\u043a\/\u2116-452-\u2022-2014\/1985-2\/\" \/>\n<meta property=\"og:site_name\" content=\"\u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb\" \/>\n<meta property=\"article:modified_time\" content=\"2016-07-05T11:19:35+00:00\" \/>\n<meta name=\"twitter:label1\" content=\"Est. reading time\" \/>\n\t<meta name=\"twitter:data1\" content=\"11 minutes\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\\\/\\\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"http:\\\/\\\/www.geology.com.ua\\\/en\\\/%d0%b2%d0%b8%d0%bf%d1%83%d1%81%d0%ba%d0%b8\\\/2014-%d1%80%d1%96%d0%ba\\\/%e2%84%96-452-%e2%80%a2-2014\\\/1985-2\\\/\",\"url\":\"http:\\\/\\\/www.geology.com.ua\\\/en\\\/%d0%b2%d0%b8%d0%bf%d1%83%d1%81%d0%ba%d0%b8\\\/2014-%d1%80%d1%96%d0%ba\\\/%e2%84%96-452-%e2%80%a2-2014\\\/1985-2\\\/\",\"name\":\"(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 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4(52) : 5-29 - \u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb","robots":{"index":"index","follow":"follow","max-snippet":"max-snippet:-1","max-image-preview":"max-image-preview:large","max-video-preview":"max-video-preview:-1"},"canonical":"http:\/\/www.geology.com.ua\/en\/\u0432\u0438\u043f\u0443\u0441\u043a\u0438\/2014-\u0440\u0456\u043a\/\u2116-452-\u2022-2014\/1985-2\/","og_locale":"en_US","og_type":"article","og_title":"(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 4(52) : 5-29 - \u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb","og_description":"Geoinformatika 2014; 4(52) : 5-29\u00a0 (in Russian) MOBILE GEOPHYSICAL TECHNOLOGIES:\u00a0EXPERIMENTAL STUDY OF POSSIBILITY OF APPLICATION FOR HYDROCARBON ACCUMULATIONS PROSPECTING WITHIN AREAS OF SHALE SPREADING IN EASTERN EUROPE S.P. Levashov1,2,\u00a0N.A. Yakymchuk1,2,\u00a0I.N. Korchagin3,\u00a0D.N. Bozhezha2 1Institute of Applied Problems of Ecology, Geophysics and Geochemistry, Laboratorny lane, 1, Kyiv 01133, Ukraine 2Management and Marketing Center of Institute of Geological Science NAS Ukraine,\u00a0Laboratorny lane, 1, Kyiv 01133, Ukraine 3Institute of Geophysics of Ukraine National Academy of Science,\u00a0 Palladin Ave., 32, Kiev 03680, Ukraine,\u00a0e-mail: korchagin@karbon.com.ua Purpose. Exploring the possibility of mobile and operational geophysical technologies using for the detection and mapping within the shale spreading areas of local areas with increased concentrations of hydrocarbon accumulations (oil, gas and gas condensate), within which the industrial (commercial) inflows of hydrocarbons can be obtained from boreholes. Experimental studies conducting within shale complexes spreading in Ukraine, Poland, Romania, Lithuania and England. Design\/methodology\/approach. Experiments were carried out with the mobile technology of frequency-resonance processing and interpretation of remote sensing data using, which is the \u201cdirect\u201d method of oil and gas exploration and operates within the \u201csubstantial\u201d paradigm of geophysical investigations [17]. The technologies and methods, developed on the principles of this paradigm, are aimed at the searching a particular (desired in each case) substance \u2013 oil, gas, condensate, gold, zinc, uranium, etc. Findings. The anomalous zones of the \u201creservoir of gas\u201d (\u201cgas, oil\u201d) type were detected and mapped within the surveyed license blocks. Parameters of many anomalous zones (areas and maximum estimates of fluid pressure in the reservoirs) allow us to classify them as promising objects, the probability of industrial (commercial) HC inflows from which is relatively high. The observed anomalies should be considered as priority local areas for detailed study by geophysical methods and drilling. This is essentially the \u201cSweet spots\u201d zones. The received estimates of maximum values of reservoir pressure within the observed anomalous zones vary in a fairly wide range. This indicates that the projected productive horizons can be located both above and below the shale complexes. Therefore, the practically all (available for drilling) interval of the cross-section should be studied, when for the hydrocarbon accumulations prospecting within areas of shale spreading. Anomalous zones with very low values of fluid pressure in the reservoirs should not be considered as priority targets for detailed study. Practical value\/implications. The development of the surveyed license blocks starting from detected anomalous zones will allow, in general, significantly reduce the harmful effects (ecological pressure) on the environment. Mobile technology of frequency-resonance processing and interpretation (decoding) of remote sensing data allows to detect and map operatively the \u201cSweet spots\u201d zones within the shale and other unconventional reservoirs spreading. Keywords: mobile technology, anomaly of deposit type, oil, gas, gas-condensate, shale, coal-bearing rocks, fault zone, satellite data, direct prospecting, processing of remote sensing data, interpretation. The full text of papers\u00a0 References Bembel R.M., Megerya V.M., Bembel S.R. Geosolitony: funktsional\u2019naya sistema Zemli, kontseptsiya razvedki i razrabotki mestorozhdeniy uglevodorodov [Geosolitony: functional system of the Earth, the concept of exploration and exploitation of hydrocarbons]. Tyumen\u2019: Vektor Buk, 2003, 344 p. Valyaev B.M. 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Nedropol\u2019zovanie XXI vek [Nedropolzovanie XXI century], 2014, no. 3, pp. 88-91. Kusov B.R. O nekotoryh dolgozhivushhih, no v korne oshibochnyh dogmah v geologii [About some long-lived, but fundamentally erroneous dogma in geology]. Vestnik Vladikavkazskogo nauchnogo centra [Bulletin of Vladikavkaz Scientific Centre], 2014, vol. 14, no. 2, pp. 35-42. Levashov S.P., Yakymchuk M.A. Korchagin I.N. Elektrorezonansnoe zondirovanie i ego ispol\u2019zovanie dlya resheniya zadach ekologii i inzhenernoy geologii [Electric-resonance sounding method and its application for solving the environmental and engineering geology problems]. Geologicheskiy zhurnal [Geological journal], 2003, no. 4, pp. 24-28. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Degtyar R.V., Bozhezha D.N. Obnaruzhenie i kartirovanie geoelektricheskimi metodami zon povyshennogo gazonasyshcheniya na ugol\u2019nykh shakhtakh [Detection and mapping by geoelectric methods of zones with high gas saturation on the coal mines]. Geofizika, EAGO [Geophysika, EAGO], 2006, no. 2, pp. 58-63. Levashov S.P., Yakymchuk N.A., Korchagin I.N. Ekspress-tekhnologiya \u201cpryamykh\u201d poiskov i razvedki skopleniy uglevodorodov geoelektricheskimi metodami: rezul\u2019taty prakticheskogo primeneniya v 2001-2005 gg. [Express technology of \u201cdirect\u201d prospecting and exploration for hydrocarbon accumulations by geoelectric methods: results of practical application in 2001-2005]. Geoinformatika [Geoinformatics (Ukraine)], 2006, no. 1, pp. 31-43. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Razin D.V., Yuzlenko A.T. O vozmozhnosti kartirovaniya geoelektricheskimi metodami skopleniy uglevodorodov v kristallicheskikh porodakh [On the possibility of hydrocarbons accumulations mapping in crystalline rocks by geoelectric methods]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 1, pp. 22-32. Levashov S.P., Yakymchuk N.A., Korchagin I.N. Novye vozmozhnosti operativnoj ocenki perspektiv neftegazonosnosti razvedochnyh ploshhadej, trudnodostupnyh i udalennyh territorij, licenzionnyh blokov [New opportunities for rapid assessment of the hydrocarbon potential of exploration areas, difficult of access and remote areas, and license blocks]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no. 3, pp. 22-43. Levashov S.P., Yakymchuk N.A., Korchagin I.N. 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