On the Issue of Optimization of Electric Car Movement with Asynchronous Electric Drive

Authors

  • B. I. Mokin Vinnytsia National Technical University
  • O. B. Mokin Vinnytsia National Technical University
  • V. V. Horeniuk Vinnytsia National Technical University

DOI:

https://doi.org/10.31649/1997-9266-2019-144-3-32-39

Keywords:

squirrel-cage induction motor, electric car drive, frequency control, optimization of modes, accumulator battery, minimum energy loss criterion

Abstract

It is shown that the results obtained in the research of a number of scientists devoted to solving the problem of frequency control of the modes of operation of a Squirrel-cage induction motor, optimal for the criterion of minimum electrical losses, require significant correction, since they are obtained using a mathematical model of the magnetization curve approximated by two straight line segments, the top of which runs parallel to the axis of current that does not meet the physical conditions of the real functioning of induction machines and requires a stabilization of the magnetic flux in the gap at a level that is specified horizontal magnetization curve regardless of changes in frequency current in the stator winding. It is proposed to solve the problem of the optimal criterion for minimizing the losses of electric energy of frequency control of the modes of operation of a Squirrel-cage induction motor, which is a traction in the electric car, using a mathematical model of the magnetization curve in the form of an inverse hyperbolic sinus, which, with high accuracy, binds the electric current in the stator winding of the induction motor with a magnetic flux created by the field of this current, and therefore corresponds to the physical conditions of the real functioning of induction machines. Presented the results of the solution of the problem of optimal frequency control by the modes of a Squirrel-cage induction motor in the conditions of its work as a traction in the electric car motor drive system obtained using the Lagrange variational method option and the mathematical model of the magnetization curve in the form of an inverse hyperbolic sinus and which lead to the field of extremals in coordinates relative time, relative velocity of electric vehicle and relative current in winding of a stator of its driving electric motor.

Author Biographies

B. I. Mokin, Vinnytsia National Technical University

Academician of NAPS of Ukraine, Dr. Sc. (Eng.), Professor, Professor of the Chair of Renewable Energy and Transport Electrical Systems and Complexes, Professor of the Chair of System Analysis, Computer Monitoring and Engineering Graphics

O. B. Mokin, Vinnytsia National Technical University

Dr. Sc. (Eng.), Professor, Professor of the Chair of System Analysis, Computer Monitoring and Engineering Graphics

V. V. Horeniuk, Vinnytsia National Technical University

Post-Graduate Students of the Chair of Renewable Energy and Transport Electrical Systems and Complexes

References

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Alfredo Munoz-Garcia, Thomas A. Lipo, and Donald W. Novotny. “A New Induction Motor V/f Control Method Capable of High-Performance Regulation at Low Speeds,” IEEE transactions on industry applications, vol. 34, no. 4, July/August 1998.

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И. Н. Бронштейн, и К. А. Семендяев, Справочник по математике для инженеров и учащихся втузов. Москва: Наука, 1967, 608 с.

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Published

2019-06-26

How to Cite

[1]
B. I. Mokin, O. B. Mokin, and V. V. Horeniuk, “On the Issue of Optimization of Electric Car Movement with Asynchronous Electric Drive”, Вісник ВПІ, no. 3, pp. 32–39, Jun. 2019.

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Section

ENERGY GENERATION, ELECTRIC ENGINEERING AND ELECTROMECHANICS

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