The Efficiency of Ideal Ferrielectric Energy Converter

M.D. Zviadadze; I.G. Margvelashvili; A.G. Kvirikadze; L.A. Zamtaradze,; A.I. Berdzenishvili

arXiv:1206.2789·cond-mat.other·June 14, 2012

The Efficiency of Ideal Ferrielectric Energy Converter

M.D. Zviadadze, I.G. Margvelashvili, A.G. Kvirikadze, L.A. Zamtaradze,, A.I. Berdzenishvili

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TL;DR

This paper analyzes the theoretical efficiency of an ideal ferrielectric energy converter that transforms low-potential water heat into electricity, leveraging the sharp capacitance change near the Curie temperature.

Contribution

It provides a calculation of the efficiency of a ferrielectric energy converter based on phase transition properties, introducing a novel theoretical approach.

Findings

01

Efficiency depends on the sharp capacitance change near Curie temperature

02

Theoretical maximum efficiency is derived for ideal conditions

03

Highlights potential of ferrielectric materials for energy conversion

Abstract

The article contains the calculation of the efficiency of ideal ferrielectric energy converter, the working body of which is ferrielectric and which converts the heat energy of low-potential water into the electric energy. Its operation is based on the sharp dependence of capacitivity of ferrielectric on the temperature of dielectric-ferrielectric structural phase transition in the vicinity of Curie temperature.

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Taxonomy

TopicsElectric Power Systems and Control · Industrial Engineering and Technologies · Advanced Materials and Semiconductor Technologies