ВИЗНАЧЕННЯ ТА ДОСЛІДЖЕННЯ КОЕФІЦІЄНТУ ПОТУЖНОСТІ ЕЛЕКТРОМЕХАНОТРОННИХ СИСТЕМ З АСИНХРОННИМИ ДВИГУНАМИ

O.M.  Popovych

No. 4 (2014), Electromechanical Energy Conversion

No. 4 (2014)

Electromechanical Energy Conversion

DEFINITION AND RESEARCH OF ELECTRICAL POWER FACTOR OF ELECTROMECHANICAL SYSTEMS WITH INDUCTION MOTORS

Published 2014-06-25

O.M. Popovych⁺⁻

O.M. Popovych

Institute of Electrodynamics National Academy of Science of Ukraine, pr. Peremohy, 56, Kyiv-57, 03680, Ukraine

ARTICLE_37_PDF (Українська)

Keywords

induction motor
electromechanical system
electrical power factor
not sinusoidal processes асинхронний двигун
електромеханічна система
коефіцієнт потужності
несинусоїдність

How to Cite

[1]

Popovych, O. 2014. DEFINITION AND RESEARCH OF ELECTRICAL POWER FACTOR OF ELECTROMECHANICAL SYSTEMS WITH INDUCTION MOTORS. Tekhnichna Elektrodynamika. 4 (Jun. 2014), 111.

Abstract

The specified expressions for definition of electrical power factor of electromechanical systems in view of asymmetry of parameters, not sinusoidal processes, and dynamic modes of operation are justified and investigated. Expressions are intended for comparative research of systems, forming of criteria of optimum projection at an assumption of a symmetric and sinusoidal supply voltage. An input information for accounts are time dependences of currents of a web and delta voltage. Specification, in comparison with accounts on the first harmonics and instantaneous powers, is augmented with increase in a degree of an aberration from sinusoidal processes, on an example of thyristor regulation of voltage of an induction motor it reaches 20 %. References 5, figures 1.

ARTICLE_37_PDF (Українська)

References

Voitekh А.А., Popovich A.N. Operating characteristics of the asynchronous machine at not garmonic currents // Tekhnichna Еlektrodynamika. – 1999. – No 2. – Pp. 25–28. (Rus)

Voitekh А.А., Popovich A.N., Bibik E.V. The account of electrical power factor by optimization of electromechanical systems for transition modes of operation // Tekhnichna Еlektrodynamika. – 2003. – No 2. – Pp. 36–42. (Rus)

Dreksler R. Electrical power factor and losses in an electrical network at the asymmetrical and nonlinear consumer // Elektrichestvo. – 1982. – No 2. – Pp. 12–16. (Rus)

Popovich A.N. Mathematical model of the asynchronous machine of electromechanical system for imitative and structural simulation // Tekhnichna Еlektrodynamika. – 2010. – No 4. – Pp. 25–32. (Ukr)

Tonkal V.Е., Novoseltsev А.V., Denisiuk S.P., Zhuikov V.Ya., Strelkov M.T., Yatsenko Yu.A. Balance of energy of electric circuits. – Kyiv.: Naukova dumka, 1992. – 312 p. (Rus)

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Abstract views: 58 | PDF Downloads: 14

Downloads

Download data is not yet available.

Most read articles by the same author(s)

O.M. Popovych, І.V. Golovan, COMPLEX DESIGN TOOLS FOR IMPROVEMENT OF ELECTROMECHANICAL SYSTEMS WITH INDUCTION MOTORS , Tekhnichna Elektrodynamika: No. 2 (2022): TEKHNICHNA ELEKTRODYNAMIKA
I.V. Golovan, O.M. Popovych, CONSIDERATION OF THE INDUCED CURRENT DISPLACEMENT IN THE ROTOR CIRCUIT IN A WEAKLY COUPLED CIRCUIT-FIELD MODEL OF AN INDUCTION MOTOR , Tekhnichna Elektrodynamika: No. 3 (2025): TEKHNICHNA ELEKTRODYNAMIKA
O.V. Bibik, I.V. Golovan, O.M. Popovych, Y.V. Shurub, EFFICIENT OPERATING CONDITIONS OF INDUCTION MOTORS FOR PISTON COMPRESSORS WITH FREQUENCY REGULATION , Tekhnichna Elektrodynamika: No. 1 (2020): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, O.I. Chyzhenko, O.M. Popovych, I.V. Trach, AN INFLUENCE OF THE FACTS UPON AN ELECTRICAL NETWORK'S MODE DURING DIRECT START-UP OF AN ASYNCHRONOUS MACHINE IN THE COMPLEX LOAD'S COMPOSITION , Tekhnichna Elektrodynamika: No. 6 (2018): TEKHNICHNA ELEKTRODYNAMIKA
Yu.V. Shurub, O.M. Popovych, O.V. Bibik , INCREASE OF POWER EFFICIENCY OF THE SINGLE-CYLINDER PISTON COMPRESSOR REGULATED ELECTRIC DRIVE , Tekhnichna Elektrodynamika: No. 4 (2024): TEKHNICHNA ELEKTRODYNAMIKA
O.M. Popovych, I.V. Golovan, SPECIFICATION OF DETERMINATION THE INDUCTION MOTOR TORQUE BY THE MAGNETIC CORE MODES IN THE SATURATED AREA , Tekhnichna Elektrodynamika: No. 6 (2022): TEKHNICHNA ELEKTRODYNAMIKA
O.M. Popovych, I.V. Golovan, STUDY OF STARTING REGIMES OF INDUCTION MOTORS USING EQUIVALENT PARAMETERS OF QUASI-3D FIELD MODEL , Tekhnichna Elektrodynamika: No. 1 (2019): TEKHNICHNA ELEKTRODYNAMIKA
O.M. Popovych, I.V. Golovan, MODELING OF INDUCTION MOTORS IN ELECTROMECHANICAL SYSTEMS CONSIDERING STATOR IRON LOSSES , Tekhnichna Elektrodynamika: No. 5 (2024): TEKHNICHNA ELEKTRODYNAMIKA
O.M. Popovych, R.V. Yashyn, STUDY OF ECONOMY OF ENERGY AND WATER RESOURCES IN THE WATER SUPPLY SYSTEM OF A HIGH-STORY BUILDING WITH TWO-TIER RISER , Tekhnichna Elektrodynamika: No. 1 (2025): TEKHNICHNA ELEKTRODYNAMIKA
O.M. Popovych , I.V. Golovan , STUDY OF CHANGED MAIN FLUX REACTANCE OF SQUIRREL-CAGE INDUCTION MOTORS USING FIELD ANALYSIS OF THEIR STARTING CHARACTERISTICS , Tekhnichna Elektrodynamika: No. 5 (2018): TEKHNICHNA ELEKTRODYNAMIKA

1 2 > >>