R.A. Nikonov scite author profile

R.A. Nikonov

3Publications

96Citation Statements Received

354Citation Statements Given

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Affiliations

Oil and Gas Research Institute, Gubkin Russian State University of Oil and Gas, Moscow Power Engineering Institute

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Complex of Geophysical Studies of the Seyakha Catastrophic Gas Blowout Crater on the Yamal Peninsula, Russian Arctic

Bogoyavlensky

Nikonov

et al. 2020

Geosciences

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This article describes the main results of two Arctic expeditions in 2017–2018 to study the Seyakha Crater in the north of Western Siberia, Yamal Peninsula. It was formed on a place of a pingo-like feature (PLF) by huge blowout, self-ignition, and explosion of gas on 28 June 2017. In 2018, for the first time, the integration of geophysical studies on the Yamal Peninsula revealed in detail an Arctic gas-blowout crater within a river channel and adjacent land with permafrost. On the basis of unmanned aerial vehicle photography, echo sounding, and ground penetrating radar survey data processing, a 3D digital elevation model (DEM) of the crater and the structure of near-surface deposits was created. A previously unknown uplift inside the permafrost layers, probably connected with the processes of gas chamber formation, was revealed. A long period of continuous gas emission (mainly, biogenic methane) from the Seyakha C11 Crater (2017–2019) and other existing data show evidence for a gas-dynamic mechanism of the PLF growth and a volcanic type of eruption.

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Earth decontamination in the Arctic: remote and field studies of the Seyakha accident gas emission on the Yamal Peninsula

Bogoyavlensky¹,

Sizov²,

Mazharov³

et al. 2019

AEE

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ФГБУН Институт проблем нефти и газа РАН, ФГБОУ ВО Российский государственный университет нефти и газа (национальный исследовательский университет) имени И. М. Губкина (Москва, Российская Федерация) О. С. Сизов ФГБУН Институт проблем нефти и газа РАН, ФГБОУ ВО Российский государственный университет нефти и газа (национальный исследовательский университет) имени И. М. Губкина, АО «Российские космические системы» (Москва, Российская Федерация) А. В. Мажаров Правительство Ямало-Ненецкого автономного округа (Салехард, Российская Федерация) И. В. Богоявленский, Р. А. Никонов, А. В. Кишанков ФГБУН Институт проблем нефти и газа РАН, ФГБОУ ВО Российский государственный университет нефти и газа (национальный исследовательский университет) имени И. М. Губкина (Москва, Российская Федерация) Т. Н. Каргина ФГБУН Институт проблем нефти и газа РАН (Москва, Российская Федерация) Статья поступила в редакцию 12 декабря 2018 г. Впервые в русле заполярной реки выявлен бугор пучения, который был разрушен 28 июня 2017 г. выбросом, самовоспламенением и взрывом газа с формированием гигантского кратера. Оперативное проведение экспедиции на «Сеяхинский» кратер (С11), образовавшийся в русле реки Мюдрияха на полуострове Ямал, и анализ данных дистанционного зондирования Земли позволили восстановить геодинамические процессы роста бугра, обусловленные давлением газа, и активные термоабразионные процессы (скорость до 1,47-1,6 м/сут), разрушающие стенки кратера. С учетом большой удаленности глубоких скважин от места взрыва и установленного микробиального генезиса газа сделан вывод о высокой вероятности природного происхождения выброса газа и образования кратера С11. На основе обнаружения большого количества бугров пучения и озер с кратерами выброса газа на дне в восточной и особенно северо-восточной частях полуострова Ямал сделан вывод, что эти районы характеризуются повышенной газовзрывоопасностью.

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New Catastrophic Gas Blowout and Giant Crater on the Yamal Peninsula in 2020: Results of the Expedition and Data Processing

Bogoyavlensky

Nikonov

et al. 2021

Geosciences

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This article describes the results of an Arctic expedition studying the new giant gas blowout crater in the north of Western Siberia, in the central part of the Yamal Peninsula in 2020. It was named C17 in the geoinformation system “Arctic and the World Ocean” created by the Oil and Gas Research Institute of the Russian Academy of Sciences (OGRI RAS). On the basis of remote sensing, it can be seen that the formation of the crater C17 was preceded by a long-term growth of the perennial heaving mound (PHM) on the surface of the third marine terrace. Based on the interpretation of satellite images, it was substantiated that the crater C17 was formed in the period 15 May–9 June 2020. For the first time, as a result of aerial photography from inside the crater with a UAV, a 3D model of the crater and a giant cavity in the ground ice, formed during its thawing from below, was built. The accumulation of gas, the pressure rise and the development of gas-dynamic processes in the cavity led to the growth of the PHM, and the explosion and formation of the crater.

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R.A. Nikonov

Complex of Geophysical Studies of the Seyakha Catastrophic Gas Blowout Crater on the Yamal Peninsula, Russian Arctic

Earth decontamination in the Arctic: remote and field studies of the Seyakha accident gas emission on the Yamal Peninsula

New Catastrophic Gas Blowout and Giant Crater on the Yamal Peninsula in 2020: Results of the Expedition and Data Processing

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