- Сайт журналу «Геоінформатика»

1.0Сайт журналу «Геоінформатика»http://www.geology.com.ua/enАдміністраторhttp://www.geology.com.ua/en/blog/author/andriy/- Сайт журналу «Геоінформатика»rich600338<blockquote class="wp-embedded-content" data-secret="gAxA8fYO7G"><a href="http://www.geology.com.ua/en/7729-2/"></a></blockquote><iframe sandbox="allow-scripts" security="restricted" src="http://www.geology.com.ua/en/7729-2/embed/#?secret=gAxA8fYO7G" width="600" height="338" title="“” — Сайт журналу «Геоінформатика»" data-secret="gAxA8fYO7G" 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 2019; 2(70) : 5-18 УДК 528+550.837+553.98 DIRECT-PROSPECTING MOBILE TECHNOLOGY: THE RESULTS OF APPROBATION DURING SEARCHING FOR HYDROGEN AND THE CHANNELS OF MIGRATION OF DEEP FLUIDS, MINERAL SUBSTANCES AND CHEMICAL ELEMENTS N.A. Yakymchuk1, I.N. Korchagin2, S.P. Levashov3 1Institute of Applied Problems of Ecology, Geophysics and Geochemistry, prov. Laboratory, 1, Kiev, 01133 2Institute of Geophysics, NAS of Ukraine, Kyiv, Ukraine, e-mail: korchagin.i.n@gmail.com 3PRE «Geoprom», Kyiv, Ukraine Purpose.Using the technology of frequency-resonance processing and interpretation of remote sensing data (RS) (satellite images) and photographs, the experimental studies of a demonstration character have been carried out in various regions of the globe. A considerable amount of experiments was carried out with the aim of improving the methodological techniques of mobile frequency-resonance methods using in the exploration process for oil and gas, studying (evaluating) the possibility of using them to detect and localize accumulations of hydrogen, various minerals and chemical elements (rare-earth including), as well as the selection of optimal local areas for the exploration and exploratory wells location. Design/methodology/approach. When carrying out the experimental work, the mobile technology was used, including modified methods of frequency-resonance processing and decoding of satellite images and photographs, vertical electric-resonance sounding (scanning) of the cross-section, as well as the method of integrated assessment of oil and gas prospects and ore potential of large exploration blocks and license areas. Separate methods of technology are based on the principles of the “substance” paradigm of geophysical research, the essence of which is to search for a specific (the one sought in each particular case) substance — oil, gas, gas condensate, gold, zinc, uranium, etc. Findings.Experimental work on the only one site of hydrogen production in Mali, as well as on the areas of visible hydrogen degassing in the USA, Turkey, Oman, Russia and Ukraine indicate the possibility (and feasibility) of the frequency resonance methods using, when searching for hydrogen accumulations in commercial volumes. Research materials on the cluster of rare-earth elements, found in the Pacific Ocean, as well as on two areas in the Black Sea, demonstrate the effectiveness of direct-prospecting methods during the clusters of chemical elements (including rare-earth ones) searching. The results of frequency-resonance processing of satellite images of local areas of exploratory well drilling in the Black and North Seas, as well as on the shelf of South Africa, Angola and Pakistan quite convincingly demonstrate the feasibility of using the developed methods (in combination with traditionally used ones) to select the optimal locations for prospecting and exploration wells. The practical significance and conclusions. The results of additional testing of frequency-resonance methods of the satellite images and photographs processing and interpreting indicate the possibility of their use for the combustible and ore minerals searching, as well as for the deep structure of the Earth’s tectonic elements studying. The operative method of integral assessment of the oil and gas potential prospects and ore bearing capacity makes it possible to significantly accelerate and optimize the exploration process for combustible and ore minerals. The tested mobile technology of frequency-resonance processing of satellite images and photographs is recommended for use on the territory of Ukraine (as well as in other regions of the world) in order to preliminarily assess the prospects for oil and gas and ore-bearing within the poorly studied and unexplored search blocks and local areas. Keywords: Direct prospecting, degassing, vertical channel, volcano, deep structure, cross-section, oil, gas, hydrogen, amber, chemical elements, well, satellite data, mobile technology, anomaly, remote sensing data processing, interpretation, vertical sounding. The full text of papers References Afanasenkov A.P., Nikishin A.M., Obukhov A.N. Geological structure and hydrocarbon potential of the East Black Sea region. Moscow: Scientific world, 2007. 168 p. (in Russian). Hydrogen Degassing of the Planet: Analysis of Volcanic Structures. http://earth-chronicles.ru/news/2011-12-12-13338 (in Russian). Hydrogen energy: it’s time to drill wells. http://hydrogen-future.com/list-c-article/9-page-id-9.html (in Russian). Ipatenko S.P. Types of the Earth crust and oil and gas potential of the Antilles based on geonomic data. Geofizicheskiy zhurnal. 2012. Vol. 34, N 1. P. 171—182 (in Russian). Krayushkin V.A. Mestorozhdenija nefti i gaza glubinnogo genezisa. Zhurnal Vsesoyuznogo khimicheskogo obshchestva im. D.I. Mendeleeva. 1986. Vol. 31, N 5. P. 581—586 (in Russian). Krayushkin V.A., Shevchenko N.B. To the problem of the non-biogenic nature of oil and natural gas. Geology and minerals of World Ocean. 2018. N 2. P. 65—85 (in Russian). Kusov B.R. To a new level of geological thought based on original geology. Subsoil use XXI century. February 2017. N 1 (64). P. 130—136 (in Russian). Kucherov V.G., Serovaysky A.Yu. The stability of hydrocarbon systems at ultrahigh temperature and pressure parameters. Actual problems of oil and gas. 2018. Iss. 4 (23). 9 p. DOI 10.29222 / ipng.2078-5712.2018-23.art37 http://oilgasjournal.ru (in Russian). Larin V.N. Oil in the world does not end. Burn as you want: interview: available at: http://ptel.cz/2014/02/vladimir-nikolaevich-larin-neft-na-zemle-ne-zakanchivaetsya-zhgite-skolko-xotite/ (in Russian). Levashov S.P., Yakymchuk N.A., Korchagin I.N. New possibilities for the oil-and-gas prospects operative estimation of exploratory areas, difficult of access and remote territories, license blocks. Geoinformatyka. 2010. N 3. P. 22—43 (in Russian). Levashov S.P., Yakymchuk N.A., Korchagin I.N. Assessment of relative values of reservoir pressure of fluids in collectors: results of conducted experiments and prospects of practical application. Geoinformatyka. 2011. N 2. P. 19—35 (in Russian). Levashov S.P., Yakymchuk N.A., Korchagin I.N. Frequency-resonance principle, mobile geoelectric technology: new paradigm of geophysical investigations. Geofizicheskiy zhurnal. 2012. Vol. 34. N 4. P. 166—176 (in Russian). Levashov S.P., Batyrova B.Kh., Yakymchuk N.A., Korchagin I.N., Bozhezha D.N. Application of frequency-resonance method of remote sensing data processing in detailed mode for petroleum potential evaluation of local exploration block. Geoinformatyka. 2017. N 1. P. 5—18 [in Russian]. Levashov S.P., Yakymchuk N.A., Korchagin I.N., Samsonov A.I., Bozhezha D.N. On the feasibility of mobile direct-prospecting technologies using during the sites choosing for the oil and gas wells location. Geoinformatyka. 2018. N 1. P. 5—23 (in Russian). Levashov S.P., Yakymchuk N.A., Korchagin I.N., Bozhezha D.N. The results of the frequency-resonance processing of a satellite image of the local area of the «Maria-1» well drilling in the Black Sea. Materials of the international scientific conference «Marine Geological and Geophysical Research: […]