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AUTHOR(S): 

Maria Cherepanova, Alexander Egorov, Egor Lyukhanov, Maria Pospelova

 

TITLE

Energy Efficiency and Power Indicators of Household Lighting Devices Analysis

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ABSTRACT

Energy performance in household systems of power supply input depends on consumers of the electric power in many respects [1-6]. If the power consumption based on operation of household electroreceivers is consciously regulated by the ultimate consumer (the choice of analogs with a smaller rated power, peak capacitance decrease, operation of the electroreceiver reduction [9-10]), the electricity usage of lamps is not that obvious and its control should be paid a special attention and an additional research should be carried out. On the basis of measurements held in household the lamps energy indicators were got and analyzed. The comparison of different lamp types being applied in apartments today was made. Total daily working costs according to actual tariffing were calculated.

KEYWORDS

electroreceivers, energy efficiency, luminous intensity, logger, load curves, UPQI, lamps market

REFERENCES

[1] Yaroshko, V. M.; Nikishova M. V.; Mulyar E. V., Problem of optimum distribution of electroconsumer daily load, Polythematic network electronic scientific magazine of Kuban State Agricultural University, No. 06, 2004, pp 2-6. [1] Yaroshko, V. M.; Nikishova M. V.; Mulyar E. V., Problem of optimum distribution of electroconsumer daily load, Polythematic network electronic scientific magazine of Kuban State Agricultural University, No. 06, 2004, pp 2-6. 

[2] Adarichev, E. N.; Kokin, S. E.; Pazderin, A. V., Ways of power consumption decrease of large city, Power plants, No. 10, 2009, pp 43-46. 

[3] Rudnick, H.; Mutale, J.; Chattopadhyay, D.; Saint, R., Studies in Empowerment: Approaches to Rural Electrification Worldwide, Power and Energy Magazine, IEEE, Vol.:12, Issue: 4, pp. 35-41. 

[4] Verwers, J.L.; Sovers, J.R., Challenges of supplying electric power to a large industrial customer in rural areas, Industry Applications, IEEE, Vol.:36, Issue: 4, pp. 972-977. 

[5] GOST 32144-2013 Regulations of electrical energy quality in systems of power supply of general purpose, 2013. 

[6] GOST 12.3.019-80 Occupational safety standards system. Electric tests and measurements. General safety requirements, 1986. 

[7] Schneider Electric, Electrical installations guide, 2009. 

[8] Dzhodzhua, T.; Balashova, A., Market of energy saving lamps: in Russia and in the world, Kommersant, No. 26(4811). 

[9] Egorov, A.; Lyukhanov, E.; Pospelova, M.; Cherepanova, M., Research of household consumers electroreceivers modes, Book of reports of the 5th international scientific and practical conference EKSIE, p. 148. 

[10] Cherepanova, M.; Lyukhanov, E.; Pospelova, M., Comparative analysis of household consumers electroreceivers modes, Book of reports of POSTER 2016, M10.

Cite this paper

Maria Cherepanova, Alexander Egorov, Egor Lyukhanov, Maria Pospelova. (2016) Energy Efficiency and Power Indicators of Household Lighting Devices Analysis. International Journal of Environmental Science, 1, 380-384

 

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