IMPROVEMENT OF MICRODIPOLE MODEL OF BALL LIGHTNING AND ELECTRODYNAMIC DEVELOPMENT OF THEORY OF THIS PHENOMENON

Authors

  • M. I. Baranov Scientific-&-Research Planning-&-Design Institute «Molniya» National Technical University «Kharkiv Polytechnic Institute», Ukraine

DOI:

https://doi.org/10.20998/2074-272X.2013.3.08

Keywords:

ball lightning, kernel and shell, theory

Abstract

The new electrodynamic model of ball lightning (BL), containing an internal high temperature as a torus power kernel and external electro-neutral high-polarized aquatic shell, is offered. The power kernel of such BL is formed by electronic and proton microtorus with the elementary spiral-circular currents, directed in opposite sides. The spiral-circular electronic currents of conductivity of kernel of BL create the strong impulsive azimuthal magnetic field and superstrong vortical radial electric field round him.

Author Biography

M. I. Baranov, Scientific-&-Research Planning-&-Design Institute «Molniya» National Technical University «Kharkiv Polytechnic Institute»

Doctor of Technical Science, Chief Researcher

References

Baranov M.I. `Elektrofizicheskaya priroda sharovoj molnii // `Elektrichestvo. − 2009. − № 9. − S. 15-25.

Baranov M.I. `Elektricheskaya korona v mikrodipol'noj modeli sharovoj molnii // `Elektrichestvo. − 2010. − № 1. − S. 23-28.

Baranov M.I. Raschetnaya ocenka temperatury v mikrodipol'noj modeli sharovoj molnii // `Elektrichestvo.− 2010. − № 6. − S. 15-20.

Scherba A.A., Podol'cev A.D., Kucheryavaya I.N., Zolotarev V.M. `Elektricheskij transport polyarnyh molekul vody v neodnorodnom `elektricheskom pole polimernoj izolyacii vysokovol'tnyh kabelej // Tehnіchna elektrodinamіka (Kiev). − 2010. − № 5. − S. 3-9.

Smirnov B.M. Fizika sharovoj molnii // Uspehi fizicheskih nauk. − 1990. − Tom 160. − Vyp. 4. − S. 1-45.

Kuzhekin I.P., Larionov V.P., Prohorov E.N. Molniya i molniezaschita. − M.: Znak, 2003. − 330 s.

Yavorskij B.M., Detlaf A.A. Spravochnik po fizike. − M.: Nauka, 1990. − 624 s.

Duhin S.S., Deryagin B.V. `Elektroforez. − M.: Nauka, 1976. − 550 s.

Golant V.E., Zhilinskij A.P., Saharov I.E. Osnovy fiziki plazmy. − M.: Atomizdat, 1977. − 384 s.

Stahanov I.P. O fizicheskoj prirode sharovoj molnii. −M.: Nauchnyj mir, 1996. −264 s.

Nikitin A.I. Obrazovanie sharovoj molnii pri razvitii linejnoj molnii // `Elektrichestvo. − 2000. − № 3. − S.1 6-23.

Bortnik I.M., Beloglovskij A.A., Vereschagin I.P. i dr. `Elektrofizicheskie osnovy tehniki vysokih napryazhenij / Pod obsch. red. I.P. Vereschagina. − M.: Izdatel'skij dom M`EI, 2010. − 704 s.

Kuz'michev V.E. Zakony i formuly fiziki / Otv. red. V.K. Tartakovskij. − Kiev: Naukova dumka, 1989. − 864 s.

Baranov M.I. Priblizhennyj raschet maksimal'noj temperatury plazmy v sil'notochnom kanale iskrovogo razryada vysokovol'tnogo vozdushnogo kommutatora atmosfernogo davleniya // Tehnіchna elektrodinamіka (Kiev). − 2010. − № 5. − S. 18-21.

Lozanskij `E.D., Firsov O.B. Teoriya iskry. − M.: Atomizdat, 1975. − 272 s.

Baranov M.I. `Elektrofizicheskij mikromehanizm yavleniya `elektromagnitnoj indukcii v nepodvizhnom metallicheskom provodnike // `Elektrichestvo. − 2012. − № 1. − S. 36-42.

Knopfel' G. Sverhsil'nye impul'snye magnitnye polya. − M.: Mir, 1972. − 391 s.

Mesyac G.A. Impul'snaya `energetika i `elektronika. − M.: Nauka, 2004. − 704 s.

Rajzer Yu.P. Fizika gazovogo razryada. − M.: Nauka, 1987. − 592 s.

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Published

2013-07-02

How to Cite

Baranov, M. I. (2013). IMPROVEMENT OF MICRODIPOLE MODEL OF BALL LIGHTNING AND ELECTRODYNAMIC DEVELOPMENT OF THEORY OF THIS PHENOMENON. Electrical Engineering & Electromechanics, (3), 42–50. https://doi.org/10.20998/2074-272X.2013.3.08

Issue

No. 3 (2013)

Section

Engineering Electrophysics. High Electric and Magnetic Field Engineering

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Copyright (c) 2015 M. I. Baranov

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