(Українська) Geoinformatika 2014; 2(50) : 5-21 - Сайт журналу «Геоінформатика»

1.0Сайт журналу «Геоінформатика»http://www.geology.com.ua/enАдміністраторhttp://www.geology.com.ua/en/blog/author/andriy/(Українська) Geoinformatika 2014; 2(50) : 5-21 - Сайт журналу «Геоінформатика»rich600338<blockquote class="wp-embedded-content" data-secret="zKyqKNVR4m"><a href="http://www.geology.com.ua/en/2171-2/">(Українська) Geoinformatika 2014; 2(50) : 5-21</a></blockquote><iframe sandbox="allow-scripts" security="restricted" src="http://www.geology.com.ua/en/2171-2/embed/#?secret=zKyqKNVR4m" width="600" height="338" title="“(Українська) Geoinformatika 2014; 2(50) : 5-21” — Сайт журналу «Геоінформатика»" data-secret="zKyqKNVR4m" frameborder="0" marginwidth="0" marginheight="0" scrolling="no" class="wp-embedded-content"></iframe><script type="text/javascript"> /* <![CDATA[ */ /*! This file is auto-generated */ !function(d,l){"use strict";l.querySelector&&d.addEventListener&&"undefined"!=typeof URL&&(d.wp=d.wp||{},d.wp.receiveEmbedMessage||(d.wp.receiveEmbedMessage=function(e){var t=e.data;if((t||t.secret||t.message||t.value)&&!/[^a-zA-Z0-9]/.test(t.secret)){for(var s,r,n,a=l.querySelectorAll('iframe[data-secret="'+t.secret+'"]'),o=l.querySelectorAll('blockquote[data-secret="'+t.secret+'"]'),c=new RegExp("^https?:$","i"),i=0;i<o.length;i++)o[i].style.display="none";for(i=0;i<a.length;i++)s=a[i],e.source===s.contentWindow&&(s.removeAttribute("style"),"height"===t.message?(1e3<(r=parseInt(t.value,10))?r=1e3:~~r<200&&(r=200),s.height=r):"link"===t.message&&(r=new URL(s.getAttribute("src")),n=new URL(t.value),c.test(n.protocol))&&n.host===r.host&&l.activeElement===s&&(d.top.location.href=t.value))}},d.addEventListener("message",d.wp.receiveEmbedMessage,!1),l.addEventListener("DOMContentLoaded",function(){for(var e,t,s=l.querySelectorAll("iframe.wp-embedded-content"),r=0;r<s.length;r++)(t=(e=s[r]).getAttribute("data-secret"))||(t=Math.random().toString(36).substring(2,12),e.src+="#?secret="+t,e.setAttribute("data-secret",t)),e.contentWindow.postMessage({message:"ready",secret:t},"*")},!1)))}(window,document); //# sourceURL=http://www.geology.com.ua/wp-includes/js/wp-embed.min.js /* ]]> */ </script> Geoinformatika 2014; 2(50) : 5-21 (in Russian) RESULTS OF DETAILED GEOPHYSICAL INVESTIGATIONS FOR THE HYDROCARBONS ACCUMULATIONS EXPLORATION WITHIN UKRAINIAN SHIELD S.P. Levashov1,2, N.A. Yakymchuk1,2, I.N. Korchagin3, D.N. Bozhezha2, D.R. Shust4 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, Laboratorny lane, 1, Kyiv 01133, Ukraine 3Institute of Geophysics of Ukraine National Academy of Science, Palladin av., 32, Kiev 03680, Ukraine, e-mail: korchagin@karbon.com.ua 4Ltd. “Geophysics-777”, Kiev, Ukraine The results of the application of technology of frequency-resonance processing and interpretation of remote sensing (RS) data and geoelectric methods of forming short-pulsed electromagnetic field (FSPEF) and vertical electric-resonance sounding (VERS) (FSPEF-VERS express-technology) for the hydrocarbons accumulation searching on three prospect area (“South”, “West”, “North”) in the different parts of the Ukrainian crystalline shield are analyzed. The anomalous zone of the “oil reservoir”, “condensate reservoir” and “gas reservoir” type was detected and mapped within all investigated areas by the remote sensing data processing. These anomalies were confirmed and detailed by the FSPEF survey. The bedding depths of the anomalous polarized layers (APL) of oil, gas and gas-condensate type were determined by VERS sounding within anomalous zone. The projected resources of gas, condensate and oil have been estimated for all investigated plots by the results of detailed studies. The site “North” is recommended for priority drilling. The optimal area for exploratory well laying was highlighted within it. The investigation results show that mobile technologies can be used for exploration and prospecting the hydrocarbon accumulations in crystalline massifs and tectonic fracture (fault) zones of the crystalline basement. The operative assessment of petroleum potential of insufficiently studied sites and areas in different regions of Ukraine can be made with mobile geophysical technologies using. The used mobile methods works within the framework of the “substantial” paradigm of geological and geophysical studies, the essence of which is “direct” searching for a particular substance such as oil, gas, gold, silver, platinum, zinc, iron, water, etc. FSPEF method and technology of remote sensing data processing allow to detect and map operatively the anomalous zones of the “oil accumulation” and (or) “gas accumulation” type. The bedding depths of the anomalous polarized layers (APL) of gas and gas-condensate type may be determined by VERS sounding within one anomalous areas. Mobile technology allows to get a new (additional) and, more importantly, independent information on the petroleum potential of the surveyed areas. This information, in conjunction with available geological and geophysical materials can be used to select the objects for detailed studying and primary drilling. Keywords: Geoelectric survey, electric-resonance sounding, anomaly “deposit” type, gas, gas condensate, fault zone, crystalline massif, basement, satellite data, technology, direct searching, processing and interpretation. The full text of papers References Bembel R.M., Megerya V.M., Bembel S.R. Geosolitony: funktsional’naya sistema Zemli, kontseptsiya razvedki i razrabotki mestorozhdeniy uglevodorodov [Geosolitony: functional system of the Earth, the concept of exploration and exploitation of hydrocarbons]. Tyumen’: 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’. Netradicionnye resursy nefti i gaza – prilozhenie k zhurnalu [Gas industry, Unconventional oil and gas resources – supplement to the journal], 2012, pp. 9-16. Gavrilov V.P. Novyy vozmozhnyy neftegazonosnyy etazh zemnoy kory [Possible new oil and gas of the Earth crust]. ROGEKH. Rossiyskie neftegazovye tekhnologii [ROGEH. Russian oil and gas technology], 2006, no. 7, pp. 26-30. Karasevich A.M., Zemtsova D.P., Nikitin A.A. Novye tehnologii geofizicheskih issledovanij pri poiskah i prognoze uglevodorodnogo syr’ja [New technologies geophysical research for the hydrocarbons search and forecasting]. Moscow: Strahovoe revju, 2010, 140 p. Karpov V.A. Sostojanie i perspektivy razvitija neftegazopoiskovyh rabot v Zapadnoj Sibiri [Status and prospects of oil and gas exploration in Western Siberia]. Geologija nefti i gaza [Oil and gas geology], 2012, no. 3, pp. 2-6. Kovalev N.I., Gokh V.A., Ivashchenko P.N., Soldatova S.V. Opyt prakticheskogo ispol’zovaniya apparatury kompleksa “Poisk” dlya obnaruzheniya i okonturivaniya uglevodorodnykh mestorozhdeniy [Experience in the practical use of the “Poisk” equipment complex to detect and delineate hydrocarbon deposits]. Geoinformatika [Geoinformatics (Ukraine)], 2010, no 4, pp. 46-51. Krinin V.A., Proskuryakov A.L., Piavko A.M., Chervoniy N.P., Levashov S.P. Primenenie geoelektricheskikh metodov SKIP-VERZ dlya poiskov nefti i gaza v rayone Vankorskogo mestorozhdeniya [Application of FSPEF-VERS geoelectric methods for oil and gas prospecting in the Vankor oil-and-gas field area]. Neftjanoe hozjajstvo [Oil industry], 2011, no. 11, pp. 18-21. 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. Levashov S.P., Yakymchuk M.A. Korchagin I.N. Elektrorezonansnoe zondirovanie i ego ispol’zovanie 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’nykh 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 “pryamykh” poiskov i razvedki skopleniy uglevodorodov geoelektricheskimi metodami: rezul’taty prakticheskogo primeneniya v 2001-2005 gg. [Express technology of “direct” 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. Ocenka otnositel’nyh znachenij plastovogo […]