Dangerous geodynamic processes of the Eastern Orenburg

Nesterenko, M. Yu.; Tsviak, Aleksey; Капустина, О. А.; Nesterenko, A.M.; Nikiforov, S. P.

doi:10.1051/e3sconf/202016901016

Cited by 4 publications

(3 citation statements)

References 3 publications

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“…The use of electric tractors is inextricably linked with their provision of electrical energy. Today, traction batteries are charged at stationary charging stations [6,7]. To charge, you need to deliver the tractor to this station using special trawls or under your own power.…”

Section: Methodsmentioning

confidence: 99%

Mobile charging station for electric tractors

Nesterenko,

Karnaukhov

et al. 2024

BIO Web Conf.

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The paper examines the issues of providing electrical energy to tractors operating on electric traction. Problems associated with the lack of infrastructure necessary for charging and recharging traction batteries are described. The rationale for the operation of electric tractors in agriculture is given. The article provides an overview of the available types of charging stations, their advantages and disadvantages, as well as some technical characteristics. The development and use of mobile charging stations for charging and recharging traction batteries of electric tractors directly in the field is substantiated. The main results provide information about the designed mobile charging station. The article contains a description of the design and composition of a mobile charging station, through which traction batteries are charged directly in the field. The rationale for choosing the type of charging station and the method of supplying it with electrical energy is presented. Particular attention is paid to the rational choice of storage batteries that will be located in the charging station. An assessment of the used rechargeable batteries is carried out, their main advantages and disadvantages are given, as well as the type of batteries chosen for use is justified.

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Section: Methodsmentioning

confidence: 99%

Mobile charging station for electric tractors

Nesterenko,

Karnaukhov

et al. 2024

BIO Web Conf.

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“…As a result, stress is reduced and seismic energy is released. Finding out the specific reasons for their occurrence presupposes knowledge of the features of the geological structure of the territory in terms of its historical formation [Nesterenko et al, 2018;Nesterenko et al, 2019].…”

Section: Introductionmentioning

confidence: 99%

Современная Сейсмогеодинамика Апшеронского Нефтегазоносного Региона

Kazimova,

Guseinzade,

Mammadova

2024

Геология И Геофизика Юга России

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Relevance. In many regions of the world, the concentration of oil and gas and large hydrocarbon deposits is observed in the nodal zones of active faults, as well as in neotectonic block structures. A change in the stressed state of mountain structures can cause activation of seismic geodynamic processes accompanied by tectonic disturbances. In addition, it should be noted that the main danger of seismic impacts on the territory of the Absheron Peninsula comes from the Caspian Sea, the seismic activity of which is increasing every year. The aim of these studies is to study modern geodynamic and seismic activity within the Absheron oil and gas region. Methods. Maps of earthquake epicenters for the period 2003–2023 were built on the ArcGIS10.5 program and analyzed. Based on the catalog data and maps of seismic activity were constructed for two periods. Based on the method of inversion of waveforms and the first arrivals of a longitudinal wave, the earthquake source mechanisms were constructed, maps of the compression and tension axes, as well as maps of the distribution of the Lode–Nadai stress state coefficient were constructed. Results. Thus, the analysis of seismicity showed that within the Absheron oil and gas region there are two active seismic zones. The first zone is located in the northern part of the peninsula, and the second is below Absheron on the southern side. Most earthquake hypocenters are located within the basalt layer and upper mantle. The northern focal zone is located at a depth of 0–25 km and has a width of 35 km. The northern zone is associated with the rupture system of the Absheron–Pribalkhan deep fault. In 2003–2012 seismic activity in the northern part of Absheron varies from Act = 0.8 to 1.3, and in 2013–2023. – from 0.45 to 0.65 with a background level of 0.1. On the distribution maps of the Lode–Nadai stress state coefficient, it is clear that the zone of the Absheron Peninsula is mainly characterized by compression stresses. Актуальность работы. Во многих регионах мира концентрация нефтегазовых и крупных месторождений углеводородов наблюдается в зонах пересечения активных разломов, а также в неотектонических блочных структурах. Изменение напряженного состояния глубинных структур может стать причиной активизации сейсмогеодинамических процессов, сопровождающихся тектоническими нарушениями. Кроме того нужно отметить, что основная опасность сейсмических воздействий для территории Апшеронского полуострова исходит со стороны акватории Каспийского моря, на дне которого из года в год возрастает сейсмическая активность. Целью данных исследований является изучить современную геодинамическую и сейсмическую активность в пределах Апшеронского нефтегазоносного района. Методика. Были проанализированы карты эпицентров землетрясений за период 2003–2023 гг., построенные в программе ArcGIS10.5. По данным каталога были построены карты сейсмической активности за два периода. На основе метода инверсии волновых форм и первых вступлений продольной волны были построены механизмы очагов землетрясений, карты осей сжатия и растяжения, а также карты распределения коэффициента напряженного состояния Лоде–Надаи. Результаты. Анализ сейсмичности показал, что в пределах Апшеронского нефтегазоносного района существуют две активные сейсмические зоны. Первая зона расположена в северной части полуострова, а вторая – ниже Апшерона с южной стороны. Большая часть гипоцентров землетрясений расположена в пределах базальтового слоя и верхней мантии. Северная очаговая зона расположена на глубине 0–25 км, с шириной 35 км. В 2003–2012 гг. сейсмическая активность в северной части Апшерона варьируется от Акт=0,8 до 1,3, а в 2013–2023 гг. – от 0,45 до 0,65 при фоновом уровне 0,1. На картах распределения коэфициента напряженного состояния Лоде–Надаи, видно, что зона Апшеронского п-ва в основном характеризуется напряжениями сжатия.

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“…The intensification of the level of hydrocarbon production leads to a drop in reservoir pressure, and this, in turn, is the cause of possible deformations of the earth's surface and transformation of groundwater. Conducting a comprehensive analysis of the ecological and economic state with the identification of the natural resource potential of the territory with the hydrocarbon deposit being developed on the basis of aggregated models can significantly increase geodynamic safety [4][5][6] and thereby the efficiency of using the natural resource potential.…”

Section: Introductionmentioning

confidence: 99%

Technology of identification of natural resource potential in geodynamic ecological and economic assessment of the territory of the developed hydrocarbon deposit

Solomatin,

Vladov,

Nesterenko

et al. 2023

BIO Web Conf.

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The article investigates the use of aggregated models for geodynamic assessment of the ecological and economic assessment of the territory of the hydrocarbon field under development, including the values of reservoir pressure drops from the initial level. The significant potential of the developed identification technology and the proposed state models suggests the need for further research and enrichment of the created scientific direction. The results of the study allow us to build a more efficient hydrocarbon production program.

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Dangerous geodynamic processes of the Eastern Orenburg

Cited by 4 publications

References 3 publications

Mobile charging station for electric tractors

Mobile charging station for electric tractors

Современная Сейсмогеодинамика Апшеронского Нефтегазоносного Региона

Technology of identification of natural resource potential in geodynamic ecological and economic assessment of the territory of the developed hydrocarbon deposit

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