Vera V. Vakhnina scite author profile

The expected magnitude of extralow-frequency (ELF) electromagnetic response in the upper ionosphere to ground large-scale power transmission lines at low Earth orbit (LEO) is modeled. The full-wave system of Maxwell's equations is numerically solved in a realistic ionosphere whose parameters have been reconstructed with the use of the International Reference Ionosphere (IRI) model. We have calculated the altitudinal structure in the atmosphere and ionosphere of electromagnetic field and Poynting flux excited by an oscillating 50/150 Hz linear current suspended above the ground. The leakage rate into the upper ionosphere was shown to increase during nighttime hours and above a high-resistive crust. The amplitudes of electromagnetic power line emission (PLE) detected by LEO satellites correspond to the unbalanced power line current intensity of about 1-10 A, depending on the crust resistivity.

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ULF Electromagnetic Field in the Upper Ionosphere Excited by Lightning

Mazur

Fedorov

Pilipenko

et al. 2018

JGR Space Physics

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We examine excitation of ultralow frequency (ULF) electromagnetic waves by an atmospheric lightning stroke in the upper ionosphere and the role of the ionospheric Alfvén resonator (IAR) in this process. We have theoretically calculated with the developed numerical model the spatial and spectral structures of electromagnetic disturbance in the ULF frequency range 0.1–6.0 Hz excited by an atmospheric lightning stroke on the ground and at ionospheric altitudes. The frequency band under consideration comprises typical frequencies of the IAR and the ionospheric waveguide. The spectra of horizontal magnetic and electric components reveal a spectral multiband structure in the upper ionosphere. The form of spectra depends significantly on the horizontal distance ρ from the source: spectral peaks associated with the IAR are evident at ρ≤400 km, whereas at ρ≥1,000 km the spectral peaks (>4 Hz) corresponding to the ionospheric waveguide modes can be seen. The model predicts that a vertical electric discharge with the charge moment MQ=106 C·m produces at altitude 500 km and ρ = 40 km a pulse with electric and magnetic amplitudes of about 4 mV/m and 4 nT, correspondingly, and duration ∼0.2 s. The pulse amplitude decays rather slowly with distance ∝ρ−1. Detection of ULF response in the upper ionosphere to isolated intense lightning stroke by low‐orbiting satellites with magnetic or electric sensors onboard is quite feasible.

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The Influence of Geomagnetic Storms on Thermal Processes in the Tank of a Power Transformer

Vakhnina

Шаповалов

Кузнецов

et al. 2015

IEEE Trans. Power Delivery

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Design, analysis, and implementation of a new high step‐up DC–DC converter with low input current ripple and ultra‐high‐voltage conversion ratio

Jabarullah

Geetha²,

Arun

et al. 2020

IET power electron.

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The effect of geomagnetically induced currents on the thermal conditions of power transformers

Vakhnina

Кузнецов

Шаповалов

2016

Russ. Electr. Engin.

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Vera V. Vakhnina

Modeling ELF Electromagnetic Field in the Upper Ionosphere From Power Transmission Lines

ULF Electromagnetic Field in the Upper Ionosphere Excited by Lightning

The Influence of Geomagnetic Storms on Thermal Processes in the Tank of a Power Transformer

Design, analysis, and implementation of a new high step‐up DC–DC converter with low input current ripple and ultra‐high‐voltage conversion ratio

The effect of geomagnetically induced currents on the thermal conditions of power transformers

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