Volume 7 (2023)
The geomagnetic field of the Earth and the Seebeck effect as the one whole
Anatoliy Golovchenko1
1Dnipro University of Technology, Dnipro, Ukraine
*Corresponding author: dychkovskyi.r.o@nmu.one
Abstract
This article represents the latest scientific work of Anatoliy Golovchenko. He considered it the culmination of his scientific endeavors. Unfortunately, he did not manage to finish it. Therefore, the formation and correction of the article were undertaken by professor Roman Dychkovskyi. The author of the article also did not arrange the references throughout the text, as he indicated at the end of the work. So, these literary sources are thus left in this research. The paper represents the analysis of the Earth's geomagnetic field and the Seebeck effect have individually captivated scientific inquiry due to their profound implications in diverse fields. This paper proposes a novel exploration of their interconnection, positing them as components of a unified phenomenon. Drawing upon principles from geophysics, thermodynamics, and materials science, it was investigated the potential synergies between the Earth's magnetic field and the Seebeck effect. By elucidating the thermoelectric properties of Earth's materials under varying magnetic fields, we uncover intricate relationships that could redefine our understanding of both phenomena. Moreover, it was explored the implications of this unified perspective on applications ranging from geothermal energy harnessing to the design of novel thermoelectric devices. Through theoretical analysis and experimental validation, this research aims to elucidate the intricate interplay between the Earth's magnetic field and thermoelectric phenomena, offering insights that transcend disciplinary boundaries and pave the way for innovative technologies and deeper insights into Earth's natural processes.
Keywords: Earth's natural processes, geomagnetic field, Seebeck effect, potential synergies, thermoelectric properties
References
- Ivanov O.B., Golovchenko A.S. (1973). Studies of current collector devices with parallel branches for mining contact electric locomotives. Mining Electromechanics and Automation: Republic interdepartmental scientific-technical collection, 23, 94-97.
- Golovchenko A.S., Ivanov A.B., Kirillov I.A. (1981). Some results of studies on current collectors of contact electric locomotives in coal mine conditions. Mining Electromechanics and Automation: Republic interdepartmental scientific-technical collection, 39, 34-37.
- Bun'ko V.A., Ivanov A.B., Miroshnik A.M., Golovchenko A.S., Kirillov I.A. (1982). Experimental studies of the flexible current collector of a mining contact electric locomotive. Mining Electromechanics and Automation: Republic interdepartmental scientific-technical collection, 41, 46-47.
- Ivanov O.B., Miroshnik O.M., Golovchenko A.S., Serdyukov Yu.P., Sirochenko B.M. (1983). Author's Certificate # 1039753. Current collector of a mining electric locomotive. Bulletin No.33, September 7.
- Ivanov O.B., Golovchenko A.S., Kirillov I.A. (1983). Author's Certificate # 1050112. Direct current key. Bulletin No.39, October 23.
- Golovchenko A.S., Ivanov A.B., Kirillov I.A. (1984). Study of the device for arc suppression for mining contact electric locomotives. Mining Electromechanics and Automation: Republic interdepartmental scientific-technical collection, 44, 29-31.
- Ivanov O.B. (1985). Author's Certificate of the USSR No. 1150751. Direct current key. Bulletin # 14, April 15.
- Ivanov O.B., Golovchenko A.S., Kirillov I.A. (1985). Author's Certificate # 1174294. Device for eliminating sparking of the current collector of an electric locomotive. Bulletin 31, August 23.
- Golovchenko A.S., Ivanov A.B., Kirillov I.A. (1989). Device for suppressing arcing during current collection for mining contact electric locomotives. Mining Electromechanics and Automation: Republic interdepartmental scientific-technical collection, Issue 54, 25-29.
- Golovchenko A.S., Ivanov A.B., Kirillov I.A. (1990). Author's Certificate #. 1602776. Device for limiting rail potentials. Bulletin # 40, October 30.
- Golovchenko A.S., Ivanov A.B., Kirillov I.A. (1991). Author's Certificate # 1659254. Rail circuit with a device for limiting rail potentials. Bulletin # 24, May 30.
- Golovchenko A.S., Ivanov O.B., Kirillov I.A. (1991). Author's Certificate # 1695603. Device for eliminating sparking of the current collector of an electric locomotive. Bulletin 24, May 30.
- Ivanov O.B., Golovchenko A.S., Kirillov I.A., Arutyunov V.M., Khudyakov A.N., Osipenko I.P. (1993). Author's Certificate # 1796498. Device for eliminating sparking of current collectors of an electric locomotive. Bulletin # 7, February 23.
- Aziukovskyi, O., & Golovchenko, A. (2017). The submission backward trigonometrically functions as periodical functions. Power Engineering and Information Technologies in Technical Objects Control. Link
- Pazynich, Y., Kolb, A., & Potempa, M. (2017). Implementation of Energy Safety Policy in Ukraine by Means of Energy Saving in Electric Drive Systems. Advanced Engineering Forum, 25, 96–105. Link
- Golovchenko, A, Pazynich, Yu, Potempa, M. (2018). Automated Monitoring of Physical Processes of Formation of Burden Material Surface and Gas Flow in Blast Furnace. Solid State Phenomena, (277), 54-65. Link
- Golovchenko, А., Pazynich, Yu, & Potempa. M. (2018). Some aspects of energy saving of burden material in the blast furnace. Physical & Chemical Geotechnologies, 99-100.
- Golovchenko, A., Dychkovskyi, R., Pazynich, Y., Edgar, C. C., Howaniec, N., Jura, B., & Smolinski, A. (2020). Some aspects of the control for the radial distribution of burden material and gas flow in the blast furnace. Energies, 13(4), 923-926. Link