Abstract
In the article the modern state of completely new direction of electromechanical science such as combined inductive-capacitive electromechanics is considered. The wide spectra of its possible practical applications and prospects for further development are analyzed. A new approach for mathematical description of transients in dualcon jugate dynamic systems is proposed. On the basis of the algorithm differential equations for inductive-capacitive compatible electromechanical energy converters are derived. The generalized Lagrangian theory of combined inductively-capacitive electric machines was developed as a union of generalized Lagrangian models of inductive and capacitive electro-mechanical energy converters developed on the basis of the basic principles of binary-conjugate electrophysics. The author gives equations of electrodynamics and electromechanics of combined inductive-capacitive electric machines in case there are active electrotechnical materials of dual purpose (ferroelectromagnets) in the structure of their excitation system. At the same time, the necessary Lagrangian for combined inductive-capacitive forces was built using new technologies of interaction between inductive and capacitive subsystems. The joint solution of these equations completely determines the dynamic behavior and energy characteristics of the generalized model of combined machines of any design and in any modes of interaction of their functional elements
Highlights
Back in 1980-90-ies in the writings of Academician A.G
The development of modern electromechanical science at the junction of the latest achievements of classical mechanics, electrodynamics, solid state physics, electrotechnical materials science, semiconductor physics, atomic physics, chemistry, cybernetics, etc., shows that the possible practical embodiment of the idea of inductive capacitive electromechanics currently predominates and can provide a new qualitative leap in the development of those branches of human activity, the basic value for which has a complex application ix systems electromechanical energy converters [3,4,5]
Practical implementation of the idea of inductive capacitive electromechanics can be strongly influenced by the development of the main direction of nanoscience – nanostructural material science [6, 7]
Summary
Back in 1980-90-ies in the writings of Academician A.G. Iosifyan and Professor I.P. With a linear connection between the inductive and capacitive subsystems, the Lagrange function L is an additive function In this case, the equations of electrodynamics of a combined machine can be expressed in the following vector-matrix form:. When the phase start circuits are connected in series, the inductive subsystem as a voltage source is a "carrier system" with an active-capacitive load, and with a parallel connection, the "carrier" system is a capacitive subsystem as a current source with an active-inductive load In this case, the equations of electrodynamics of a combined machine can be written in the following form: equations for stator system for the serial coupling of phase stator circuits (5). Equations for stator system , with a parallel connection of phase stain chains (8)
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