S.A. Gulyakov scite author profile

S.A. Gulyakov

4Publications

0Citation Statements Received

5Citation Statements Given

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Institute of Marine Geology and Geophysics, Far Eastern Branch of the Russian Academy of Sciences

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Observations of the inverse seismoelectric effect of the second kind during electrical sounding in the Central Sakhalin fault zone

Богомолов¹,

Kostylev²,

Boginskaya³

et al. 2023

GTrZ

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The results of experiments on electrical sounding of the near-surface layer of the Earth's crust in the fault zone, which have involved a recording of seismoacoustic and seismic noise in the close zone near the source (the primary dipole source), are represented. The experiments were carried out in 2021-2022 in the southern part of the Central Sakhalin fault with the use of the generator of electric pulses developed at IMGG FEB RAS, output electric power being up to 3 kW. The aim was to reveal seismoacoustic signatures of the medium reaction to the soundings with current pulses of 5–13 A. The generator provided significantly higher current in the dipole than its typical characteristics in the case of soundings for electrical exploration by resistance methods, as well as in the case of conventional seismic and electrical exploration. At the same time, the range of current amplitudes was much smaller in comparison with the case of a deep sounding based on application of geophysical MHD generators or other extra high-power electric pulses units. Up to now, the inverse seismoelectric effect has remained practically unexplored at currents in the “intermediate” range of ~10 A and scale lengths of the order of few hundreds of meters. The presence or absence of the medium reaction to electrical soundings was distinguished by the records of molecular-electronic sensors developed by R-sensors LLC: the CME-6111 broadband seismometer and the hydrophone, installed at a distance of about 50 m from one of the poles of the electric dipole source. An increase in the average level of seismoacoustic noise during electrical soundings was revealed, which is essentially a variety of the inverse seismoelectric effect of the second kind (excitation of elastic waves during an electric current run in a two-phase medium). Previously, no similar signature of medium reaction to the current pulses was noted in the close zone adjacent to one of the dipole electrodes. The noise level increase occurs almost without delay after the start of electrical soundings, and this is in accordance with the previously obtained results on the responses of seismic acoustic emission to powerful current pulses, which were used for a deep sounding in the Northern Tien Shan.

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Development of the dual-channel frequency meter for measurements with hydrostatic pressure sensor

Stovbun

Gulyakov

2021

IOP Conf. Ser.: Earth Environ. Sci.

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The paper describes the process and the results of development of the dual-channel frequency meter, which function is to measure the output frequency generated by bottom-mounted pressure sensors. The sensors are actively used to monitor the marine environment. AVR family microcontrollers were used as the computing core of the presented device. This solution allows to obtain far lower power consumption, which is especially important when operating with no industrial power supply system in the coastal zone. As a result, we can deploy a reliable monitoring equipment capable of long-term saving data and if necessary transmit it for further processing. The developed frequency-meter is able to continually record the ambient temperature, atmospheric pressure and dynamically varying output frequency, which depends on hydrostatic pressure (sea level). To obtain more accurate data, we implemented a frequency measure method called reciprocal counter with lower relative error not affected by value of the output frequency. A laboratory experiment has been conducted, which confirms the suitability of the developed frequency meter for field-oriented conditions.

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Multichannel Synchronized Thermometer with Direct Counting of Pulses Thermosensitive Quartz Resonators

Dudchenko

Gulyakov

Stovbuh

et al. 2020

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A geophysical pulse voltage generator for seismic and electric exploration of the subsurface

Dudchenko¹,

Kostylev²,

Gulyakov³

et al. 2021

GTrZ

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This article describes the process and results of the development and testing of a cost-effective, portable, safe to move by air geophysical pulse voltage generator for seismic exploration of the subsurface. The generator is based on high-speed power electronic keys of a new generation consisting of an insulated gate bipolar transistor or a field-effect transistor based on silicon carbide, a compact power converter of alternating voltage from an autonomous generator or electric network to direct voltage using pulse-width modulation and current or voltage stabilization depending on the mode set by a researcher. Field tests were conducted to confirm the suitability of the developed design of the generator and the correctness of the chosen parameters of its elements. To this end, a detailed analysis of the effect of the developed geophysical generator on the parameters of the geoenvironment was carried out.

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S.A. Gulyakov

Observations of the inverse seismoelectric effect of the second kind during electrical sounding in the Central Sakhalin fault zone

Development of the dual-channel frequency meter for measurements with hydrostatic pressure sensor

Multichannel Synchronized Thermometer with Direct Counting of Pulses Thermosensitive Quartz Resonators

A geophysical pulse voltage generator for seismic and electric exploration of the subsurface

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