PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Influence of the Expected Wind Speed Fluctuation on the Number of Batteries of the Balancing System

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article discusses a method of assessing the of dependence of the number of batteries that would be needed to achieve energy balance in distributed generation systems with wind turbines on ambient temperature and on the error involved in predicting the parameters of wind flow (wind speed). To describe the relationship between current rate and capacity in a given current range, Peukert’s law is used. Dependence of the Peukert's constant on ambient temperature for the lead-acid battery HZB12-180FA is calculated. Taking the lead-acid battery and wind turbine VE-2 as a reference, dependence of area of controlled operation of the battery on the wind speed forecasting error is calculated. The technique of considering ambient temperature, depth of discharge, and wind speed forecasting error when deciding the size of energy storage of the balancing system (the number of batteries and their capacity) is provided. A family of curves representing the dependence of the number of batteries constituting the balancing system on the ambient temperature and the wind speed forecasting error are presented. It is shown that as the wind speed forecasting error increases from 0% to 15% and the ambient temperature decreases from 20 °C to 20 °C, the number of batteries should be increased by approximately 2.81 times in order to maintain the same area of controlled operation of a battery.
Słowa kluczowe
Wydawca
Rocznik
Strony
187--196
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
  • "Igor Sikorsky Kyiv Polytechnic Institute" National Technical University of Ukraine, Kyiv, Ukraine
  • "Igor Sikorsky Kyiv Polytechnic Institute" National Technical University of Ukraine, Kyiv, Ukraine
Bibliografia
  • Aguf, I. A. (1968). Nekotoryie voprosyi teorii poristogo elektroda i protsessyi, protekayuschie v svintsovom akkumulyatore. In Sb. rabot po HIT. L. Leningrad: Energiya, pp. 87–100.
  • Chan, C., Lu, R., Wu, G. and Zhu, C. (2010). Apply a Piece-wise Peukert’s Equation with Temperature Correction Factor to NiMH Battery State of Charge Estimation. Journal of Asian Electric Vehicles, 8(2), pp. 1419–1423. doi: 10.4130/jaev.8.1419.
  • Cui, H., Xue, J., Yang, B., Yao, L., Ye, J. and Zhuang, J. (2016). Challenges and Progresses of Energy Storage Technology and its Application in Power Systems. Journal of Modern Power Systems and Clean Energy, 4(4), pp. 519–528. doi: 10.1007/s40565-016-0248-x.
  • Cui, N., Duan, B., Shang, Y., Zhang, C. and Zhang, Q. (2018). An improved Peukert Battery Model of Nonlinear Capacity Considering Temperature Effect. IFAC-PapersOnLine, 51(31), pp. 665–669. doi: 10.1016/j.ifacol.2018.10.154.
  • Feiner, A. S. and Mcevoy, A. J. (1994). The Nernst Equation. Journal of Chemical Education, 71, pp. 493–494.
  • Galushkin, N. E. and Yazvinskaya, N. N (2018). Analysis of Generalized Peukert’s Equations for Determining the Capacity of Nickel-Cadmium Batteries. International Journal of Electrochemical Science, pp. 8602–8614. doi: 10.20964/2018.09.61.
  • HAZE Battery Company Ltd (2014). HAZE Catalogue 2014. Available at: https://invertory.ru/help/Каталог_HAZE_2014_fin_18.11.148s.pdf [Accessed 10 July 2021].
  • Herasina, O. V., Husyev, O. Yu., Korniyenko, V. I. and Shchokin, V. P. (2017). Teoriya system keruvannya: pidruchnyk. Dnypro: Nats. hirn. un-t. Available at: http://ir.nmu.org.ua/bitstream/handle/123456789/152814/CD1005.pdf?sequence=1&isAllowed=y. [Accessed 10 July 2021].
  • Klen, K. S., Yaremenko, M. K. and Zhuykov, V. Y. (2020). The Influence of the Wind Speed Prediction Error on the Size of the Storage Controlled Operation Zone in the System with the Wind Generator. Praci elektrodinamiki Nacionalnoi akademii nauk Ukraini Institutu, 2020(57), pp. 35–41. doi: 10.15407/publishing2020.57.035.
  • Krivtsov, V. S., Oleynikov, A. M. and Yakovlev, A. I. (2003). Neischerpaemaya energiya. Kn. 1. Vetroelektrogeneratoryi. Harkov: Natsionalnyiy aerokosmicheskiy universitet ‘Harkovskiy avatsionnyiy institut’.
  • Kwangkaew, A., Racharak, T. and Charoenlarpnopparut, C. (2020). Toward Forecast Techniques in Optimal Sizing of Energy Storage System with Volatile Energy Sources for Hybrid Renewable Energy System. In: 2020 International Conference on Smart Grids and Energy Systems (SGES), November 2020, pp. 390–395, doi: 10.1109/SGES51519.2020.00075.
  • Liebenow, C. (1897). Über den Elektrischen Widerstand der Metalle. Zeitschrift für Elektrotechnik und Elektrochemie, 4(8), pp. 201–211. doi: 10.1002/bbpc.18970040802.
  • Midlton, D. and Paredez, R. (no date). Obsluzhivanie batarey dlya avtonomnyih fotoelektricheskih sistem. Available at: https://invertory.ru/help/VIE_RE.pdf.
  • Morenko, K. S., Morenko, S. A. and Stepanchuk, G. V. (2019). Dvuhrotornyiy vetrogenerators upravlyaemyim uglom M79 ataki lopasti: monografiya. Zernograd: Azovo-Chernomorskiy inzhenernyiy institut FGBOU VO Donskoy GAU.
  • Mozafari, B. and Mohammadi, S. (2014). Optimal Sizing of Energy Storage System for Microgrids. Sadhana, 39(4), pp. 819–841. doi: 10.1007/s12046-014-0264-3.
  • Neusypin, K. A. and Shen, K. (2016). Study of the Criteria for the Degrees of Observability, Controllability and Identifiability of the Linear Dynamical Systems. Mehatronika, Avtomatizacia, Upravlenie, 17(11), pp. 723–731. doi: 10.17587/mau.17.723-731.
  • OOO ‘PAUERKONTSEPT’. (no date). Neobsluzhivaemyie svintsovo-kislotnyie akkumulyatoryi Ventura VG. Available at: http://www.powerconcept.ru/upload/iblock/65b/Ventura_VG_instr_po_ekspl_low.pdf [Accessed 24 June 2021].
  • Peukert, W. (1897). About the Dependence of the Capacity on the Discharge Current in Lead-Acid Batteries. Elektrotechnische Zeitschrift, 18, pp. 287–288.
  • RealSolar (2019). Ekspluataciya gelevyh akkumulyatorov. Available at: https://realsolar.ru/article/blog-akkumbattery/ekspluataciya-gelevyh-akkumulyatorov/ [Accessed 24 June 2021].
  • Shuaixun, C., Gooi, H. and Wang M. (2012). Sizing of Energy Storage for Microgrids. IEEE Transactions on Smart Grid, 3(1), pp. 142–151, doi: 10.1109/TSG.2011.2160745.
  • SolarHome (2021). Osnovnyie harakteristiki akkumulyatorov. Available at: https://www.solarhome.ru/basics/bas-batteries/ab-params.htm [Accessed 10 July 2021].
  • Svit Vitru (no date). Wind Turbine SV-3.1/200. Available at: http://mirvetra.com.ua/vetrogenerator_3_1.html [Accessed 8 April 2022].
  • Yang, H. (2019). Dependence of Supercapacitor Peukert Constant on Voltage, Aging, and Temperature. IEEE Transactions on Power Electronics, 34(10), pp. 9978–9992. doi: 10.1109/TPEL.2018.2890392.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-922b39bd-ef1d-4def-bb28-bc08b68a8b74
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.