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AUTHOR(S): V. I. Zubtsov
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ABSTRACT A small-sized installation created using multicomponent ferroelectrics for generating excess electric power is presented. The use of an electrochemical generator in the installation increases the efficiency of electric power generation by controlling the polarization of ferroelectric ceramics and applying physical and technical solutions. When the installation consumes 1 joule of electric power (using mechanical energy), 2...4 joules of electric power are generated at its output. The technology for generating excess electric power is implemented in two stages: at the first stage, the degree of polarization of the ferroelectric increases, and at the second stage, the electric power supplied to the load increases. The efficiency of the electrical installation is about 55...60% and depends on the modification of the ceramics and electrical circuits.Keywords: - Reorientation, segnetoelectrics, solid solutions, domains, charging, polarization, energy, batteries, electric transport |
KEYWORDS Reorientation, ferroelectrics, solid solutions, domains, charging, polarization, electrolysis, hydrogen, energy, batteries, electric transport |
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Cite this paper V. I. Zubtsov. (2025) Improving Energy Efficiency in Electric Transportation and Green Hydrogen Production by Controlling the Polarization of Multicomponent Ferroelectrics. International Journal of Mechanical Engineering, 10, 15-22 |
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