Resonant methods for electric power transmission and application

Authors

  • D. S. Strebkov Federal State Budgetary Scientific Institution "Federal Scientific Agroengineering Center VIM"
  • А. I. Nekrasov Federal State Budgetary Scientific Institution "Federal Scientific Agroengineering Center VIM"
  • А. А. Nekrasov Federal State Budgetary Scientific Institution "Federal Scientific Agroengineering Center VIM"

Abstract

Abstract. The methods and apparatus for the resonant system of electric power transmission for stationary consumers and mobile electric transport are considered. Substantiation of wireless electric power transmission using on electroconductive channels created by electron beams, laser and microwave radiation is given.

It has been experimentally confirmed that in a single-wire high-frequency line there is a phase shift of 90° between standing waves of current and voltage. The current is reactive and capacitive in nature. There is no active current or direct current in the line. The frequency converters have an automatic tuning of the frequency to the resonance frequency in the line.

The problem of electromagnetic emission from singe-wire cable is solved by the fact that the cable is shielded and the screen consists of separate isolated sections; the length of each section of the screen is much smaller than the wavelength corresponding to the resonant frequency of electrical energy transmission. There is no loss of corona in an insulated screened cable. For electromobiles, non-contact (non-trolley) transmission of electrical energy is used at a distance of 0.1–0.35 m from a single-wire line to an electric vehicle.

The implementation of electrotechnics, carried out on the basis of the resonance method for different electrotechnology facilities is presented. The description of experimental samples of resonant cold-plasma coagulator is given. The results investigations of experimental samples of the resonant electric power transmission system are discussed.

Key words: resonant system for electric power transmission, resonant high-frequency Tesla transformers, electroconductive channel, resonant cold-plasma coagulator.

References

References

Meinke, H., Gundles, F. (1960). Single Conductor as a Waveguide System. Radio Engineering Handbook. Moscow–Leningrad: Gosenergoizdat, Vol.1, 117-123, 188, 191–194.

Belotserkovskii, G. B. (1968). Fundamentals of Radiotechnics and Antennas. Moscow. Radio.

Kharchenko, K. P. (2003). Short-Wave Horn Antennas without Visual Walls. Moscow: RadioSoft.

Nikola Tesla. (1978). Colorado Springs Notes 1899 – 1900, Published by Nolit. Belgrade.

Tesla, N. (1919). My Inventions. Electrical Experimenter, February, March, June and October. Published in book. Nikola Tesla. Selected works, Articles, Beograd, 56.

Tesla, N. (1956). Lectures. Patents. Articles. Published by N. Tesla Museum. Belgrad. 715.

Nikola Tesla. (2008). From Colorado to Long island: Research Notes – Colorado Springs 1899-1900 – New York. 1900-1901. Nikola Tesla Museum.

Sarbon, S. (2013). The unresolved patents of Nikola Tesla. The inventions that Tesla did not protect. Nikola Tesla Museum.

Tesla, N. (1999). The Problem of Increasing Human Energy. The Century Illustrated Monthly Magazine. June, 1900. Published in a book: Nikola Tesla. Selected works. Articles. Beograd, 133.

Kalinin, E.B. (1936). Investigation of Overvoltages in Electric Installations. Moscow, 65-66.

Strebkov, D. S., Nekrasov, A. I. (2018). Resonant Methods for Electric Power generation Transmission and application. The Sixth Edition. Moscow. 576.

Tesla, N. US Patent. № 614942. Electric Railway System. Patented February 20 1884.

Strebkov, D. S., Nekrasov, A. I., Trubnikov, V. Z., Nekrasov, A. A. (2018). Single-wire resonant electric power systems for renewable based electric grid. Handbook of Research on Renewable Energy and Electric Resources for Sustainable Rural Development. Pages: 535. 449-474.

Rosenfeld, V. E., Staroselskii, N. A. (1975). High-Frequency Noncontact Electrical Transport. Moscow: Transport.

Corum, K. L., Corum, D. F. (1990). Experiments on Producing Ball Lightning Using High-Frequency Discharge and Electrochemical Fractal Clusters. Progress in Physical Sciences, April 1990, Vol. 160, No. 4, 47-58.

Tesla, N. (1999). The Wonder World to be Created by Electricity. Manufactures. Record, Sept. 9. 1915. Published in a book: Nicola Tesla. Selected works. Articles. Beograd. 369, 377, 378.

Список літератури

Meinke H., Gundles F. Single Conductor as a Waveguide System. Radio Engineering Handbook. Moscow–Leningrad: Gosenergoizdat, 1960. Vol. 1, P. 117–123, 188, 191–194.

Belotserkovskii G. B. Fundamentals of Radiotechnics and Antennas. Moscow. Radio, 1968 p.

Kharchenko K. P. Short-Wave Horn Antennas without Visual Walls. Moscow: RadioSoft, 2003.

Nikola Tesla. Colorado Springs Notes 1899 – 1900, Published by Nolit. Belgrade, 1978.

Tesla N. My Inventions. Electrical Experimenter, February, March, June and October. 1919, Published in book. Nikola Tesla. Selected works, Articles, Beograd, p.56.

Tesla N. Lectures. Patents. Articles. Published by N. Tesla Museum. Beograd, 1956. 715 p.

Nikola Tesla. From Colorado to Long island: Research Notes – Colorado Springs 1899-1900 – New York. 1900-1901. Nikola Tesla Museum. 2008.

Sarbon S. The unresolved patents of Nikola Tesla. The inventions that Tesla did not protect. Nikola Tesla Museum. 2013.

Tesla N. The Problem of Increasing Human Energy. The Century Illustrated Monthly Magazine. June, 1900. Published in a book: Nikola Tesla. Selected works. Articles., Beograd, 1999. p. 133.

Kalinin E. B. Investigation of Overvoltages in Electric Installations. Moscow, 1936. p.p. 65–66.

Strebkov D. S., Nekrasov A. I. Resonant Methods for Electric Power generation Transmission and application. The Sixth Edition. Moscow. 2018, 576 р.

Tesla N. US Patent. № 614942. Electric Railway System. Patented February 20 1884.

Strebkov D. S., Nekrasov A. I., Trubnikov V. Z., Nekrasov A. A. Single-wire resonant electric power systems for renewable based electric grid. Handbook of Research on Renewable Energy and Electric Resources for Sustainable Rural Development. Pages: 535. 2018. pp.449-474.

Rosenfeld V. E., Staroselskii N. A. High-Frequency Noncontact Electrical Transport. Moscow: Transport, 1975.

Corum K. L., Corum D. F. Experiments on Producing Ball Lightning Using High-Frequency Discharge and Electrochemical Fractal Clusters. Progress in Physical Sciences, April 1990, Vol. 160, No. 4, P. 47–58.

Tesla N. The Wonder World to be Created by Electricity. Manufactures. Record, Sept. 9. 1915. Published in a book: Nicola Tesla. Selected works. Articles. Beograd. 1999. P. 369, 377, 378.

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Published

2019-07-11

Issue

Vol. 9 No. 2 (2018)

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