Efficiency assessment of balancing devices application in the lighting systems of buildings

Authors

  • Тетяна Іванівна Романова Donbas National Academy of Civil Engineering and Architecture, Str. Derzhavina 2, Makeevka, Donetsk Region, Ukraine, 86123, Ukraine https://orcid.org/0000-0002-5747-8270

DOI:

https://doi.org/10.15587/2312-8372.2014.32239

Keywords:

electricity, lighting, LED light source, thyristor voltage regulator, balancing

Abstract

In the article there are discussed the using of balancing devices in lighting systems of buildings carried out on the basis of lighting devices with LED light sources, in order to increase their efficiency by eliminating the single-ended modes, which arise at random switching on and switching off the power single-phase receivers and lighting loads.

It is proposed the possible variants for power supply of lighting devices with LED light sources, including through the balancing thyristor voltage regulator, which is a source of direct current and fully balanced the load. Transition to the DC power supply will help reduce losses, costs of electricity and the higher harmonic components of current and voltage, increase the coefficients of power, reliability and electrical safety of these systems.

The technical and economic evaluation of different variants of power supply of LED light sources is done in the article, the variant with the best specifications is proposed.

It is proposed in the future to perform the scheme of power supply of buildings in combined variant, which implies the power supply of power electrical receivers from AC 380/220 V, and the lighting power consumers - from the DC network.

Author Biography

Тетяна Іванівна Романова, Donbas National Academy of Civil Engineering and Architecture, Str. Derzhavina 2, Makeevka, Donetsk Region, Ukraine, 86123

Assistant

Department of electrical engineering and automation

References

  1. In: Аiizenberg, Yu. B. (2008). Spravochnay kniga po svetotekhnike. Ed. 3. М., 952.
  2. Govorov, P. P., Romanova, T. I., Govorov, V. P. (2011). Electromagnetic compatibility of light-emitting diode light sources with a network. Proceedings International Scientific Conference “UNITECH’11”, Vol. 1. Gabrovo: Technical University of Gabrovo, 64-68.
  3. Маntоrsky, Z. (2008). Gаrmоnichеskie iskаzhеnia v sеti оt istоchnikоv svеtа, uprаvlyaеmykh elеktrоnnymi priborаmi. Svetotekhnikа, № 2, 30-33.
  4. Zhеzhеlеnkо, I. V., Shidlovskiy, A. K., Pivnyak, G. G. et al. (2012). Elektromagnitnaya sovmestimost potrebiteley. M.: Mashinostroenie, 351.
  5. Nosanov, N. I. (1976). Simmetriruyuschiy tiristornyiy regulyator moschnosti dlya odnofaznyikh elektropriemnikov. Promyishlennaya energetika, 11, 41-44.
  6. Denisov, V. I. (1985). Tehniko-ekonomicheskie raschetyi v energetike. M.: Energoatomizdat, 216.
  7. Nosanov, N. I., Romanova, T. I. (2012). Perspektivyi primeneniya svetodiodnyikh istochnikov sveta na ob'ektakh ZhKKH. Zbirnik tez dop. konf. “Naukovo-tekhnichne ta organizatsiyno-ekonomichne spriyannya reformam u budivnitstvi i zhitlovo-komunalnomu gospodarstvi”, Ch. II. Makiyivka: DonNABA, 35-37.
  8. GOST 30331.3-95. Electrical installations of buildings. Part 4. Protection for safety. Protection against elecric skock (MEK 364-4-41-92). (2002). Vved. 01.01.2002. M.: IPK izdatelstvo standartov, 17.
  9. Wright, M. (2013). Lighting industry progresses on DC-power grids that pair well with LEDs. Available: http://www.ledsmagazine.com/articles/print/volume-10/issue-6/features/lighting-industry-progresses-on-dc-power-grids-that-pair-well-with-leds-magazine.html
  10. Hovorov, P. P., Nosanov, M. I., Romanova, T. I. (10.11.2014). Kombinovana systema elektropostachannya postiyno-zminnoho strumu. Pat. 94427. Ukrayina, MPK (2014.01) N02J 5/00, F21 L 4/00. № u 2014 06341; Appl. 10.06.2014; Bul. 21, 6.

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Published

2014-12-23

How to Cite

Романова, Т. І. (2014). Efficiency assessment of balancing devices application in the lighting systems of buildings. Technology Audit and Production Reserves, 6(5(20), 47–51. https://doi.org/10.15587/2312-8372.2014.32239

Issue

Vol. 6 No. 5(20) (2014): Scientific outcomes 2014

Section

Power and energy saving

License

Copyright (c) 2016 Тетяна Іванівна Романова

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