АКУМУЛЮЮЧІ ПРИСТРОЇ ДЛЯ СИСТЕМ АВТОНОМНОГО ЖИВЛЕННЯ СВІТЛОТЕХНІЧНИХ УСТАНОВОК

V.A.  Andriychuk; Yа.O.  Filyuk

doi:10.15407/techned2017.02.040

No. 2 (2017), Conversion of Electric Energy Parameters

No. 2 (2017)

Conversion of Electric Energy Parameters

BATTERY UNITS FOR SELF-CONTAINED SUPPLY SYSTEMS IN LIGHTING INSTALLATIONS

Published 2017-03-02

https://doi.org/10.15407/techned2017.02.040

V.A. Andriychuk⁺⁻
Yа.O. Filyuk ⁺⁻

V.A. Andriychuk

Ternopil Ivan Puliuia National Technical University, str. Ruska, 56, Ternopil, 46000, Ukra

Yа.O. Filyuk

Ternopil Ivan Puliuia National Technical University, str. Ruska, 56, Ternopil, 46000, Ukraina

ARTICLE_7_PDF (Українська)

Keywords

supercapacitor
battery
internal resistance
self-discharge
self-discharge constant
charge/discharge verifier суперконденсатор
акумулююча батарея
внутрішній опір
саморозряд
постійна саморозряду
контролер заряду/розряду

How to Cite

[1]

Андрійчук, В. and Філюк , Я. 2017. BATTERY UNITS FOR SELF-CONTAINED SUPPLY SYSTEMS IN LIGHTING INSTALLATIONS . Tekhnichna Elektrodynamika. 2 (Mar. 2017), 040. DOI:https://doi.org/10.15407/techned2017.02.040.

Abstract

The article presents findings for electrical parameters of supercapacitors, and techniques for experimental definition of capacitance values and internal resistance of supercapacitors. Research on self-discharge and influence of delay within electric field upon self-discharge constant of supercapacitors has been conducted. Monitoring system for supercapacitors and Li-ion battery charge/discharge based on the verifier with pulse-width modulation and voltage balancing system which is employed on a separate battery element has been proposed. References 19, tables 2, figures 8.

https://doi.org/10.15407/techned2017.02.040

ARTICLE_7_PDF (Українська)

References

Beletsky O.A., Suprunovska N.I., Shcherba A.A. Dependences of power characteristics of circuit at charge of supercapacitors on their initial and final voltages // Tekhnichna Elektrodynamika. – 2016. – No 1. – Pp. 3– 10. (Ukr)

Izotov V.Yu., Gromadsky D.G., Maletin Yu.A. Simulation and calculation of the operating parameters of the supercapacitor // Naukovi Visti NTUU "KPI". – 2008. – No 6. – Pp. 114–118. (Rus)

Suprunovska N.I., Shcherba A.A. Processes of energy redistribution between parallel connected capacitors // Tekhnichna Elektrodynamika. – 2015. – No 4. – Pp. 3– 11. (Rus)

Suprunovska N.I., Shcherba A.A., Ivashchenko D.S., Beletsky O.A. Processes of energy exchange between nonlinear and linear links of electric equivalent circuit of supercapacitors // Tekhnichna Elektrodynamika. – 2015. – No 5. – Pp. 3– 11. (Rus)

Twidell G., Weir A. Renewable Energy Sources. – Moskva: Energoatomizdat, 2000. – 390 p. (Rus)

Shembel O.M., Bilogurov V.A. Main Characteristics of Modern Chemical Current Sources of Differerent Electrochemical Systems // Suchasna Spetsialna Tekhnika. – 2009. − No 2(17). − Pp. 66–86. (Ukr)

Shcherba A.A., Suprunovska N.I. Increasing regularities of rate of current rise in the load at limiting its maximal values // Tekhnichna Elektrodynamika. – 2012. – No 5. – Pp. 3– 9. (Rus)

Burke A. Batteries and ultracapacitors for electric, hybrid, and fuel cell vehicles // Proc. of the IEEE. – 2007. – Vol. 95. – No 4. – Рp. 806–820.

Burke A., Miller M. The power capability of ultracapacitors and lithium batteries for electric and hybrid vehicle applications // Journ. of the Power Sources. – 2011. – Vol. 196. – Issue 1. – Рp. 514–522.

Burke A., Miller M., Zhao H. Ultracapacitors in Hybrid Vehicle Applications: Testing of New High Power Devices and Prospects for Increased Energy Density / Research Report – UCD-ITS-RR-12-06. – Institute of Transportation Studies. University of California, May 2012.

Burke A., Zhao H. Application of sepercapacitors in electric and hybrid vehicles / Research Report. – UCD-ITS-RR-15-09. – Institute of Transportation Studies. University of Califotnia. – 2015.

Green-Cap (ELECTRIC DOUBLE LAYER CAPACITORS). Available at: http://www.masters.com.pl/files/ds/samwha/samwha-green-cap.pdf (accessed 21.09.2016)

Ivanova O.M., Danylenko M.I., Monastyrskyy G.E., Kolomytsev V.I., Koval Y.M., Shcherba A.A., Zakhar chenko S.M., Portier R. Investigation of the formation mechanisms for Ti-Ni-Zr-Cu nanopowders fabricated by electrospark Erosion method in cryogenic liquids // Metallofizika i Noveishie Tekhnologii. – 2009. – Vol. 31. – No 5. – Pp. 603–614.

Kurzweil P., Frenzel B. Capacitance characterization metods and ageing behaviour of supercapacitors / Proc. the 15th International seminar on double layer capacitors. – Deerfield Beach, Fl., U.S.A., December 5-7, 2005.

Maletin Y., Stryzhakova N., Zelinskyi S., Chernukhin S., Tretyakov D., Mosqueda H., Davydenko N., and Drobnyi D. New Approach to Ultracapacitor Technology: What it Can Offer to Electrified Vehicles // Journ. of Energy and Power Engineering. – 2015. – No 9. – Pp. 585–591.

Mihailescu B., Svasta P., Varzaru G. Hybrid Supercapacitor-Battery electric system with low electromagnetic emissions for automotive applications // U.P.B. Scientific Bulletin, Series C. – 2013. – Vol. 75. – Iss. 2. – Рp. 277–290.

Rafik F., Gualous H., Gallay R., Crausaz A., and Berthon A. Frequency, thermal and voltage supercapacitor characterization and modeling // Journal of Power Sources. – 2007. – Vol. 165. – No 2. – Рp. 928–934.

Roedem B. Thin-film PV module review: Changing contribution of PV module technologies for meeting volume and product needs // Refocus. − 2006. − Vol. 7. – No 4. − Pp. 34-39.

Zubieta L., Bonert R. Characterization of Double-Layer Capacitors for Power Electronics Applications // IEEE Trans. On Industry Applications. – 2000. – Vol. 36. – No 1. – Рp. 199–205.