Hibridno napajanje telekomunikacione i merne opreme daljinskih mernih stanica u sistemima zaštite od poplava

Energija, ekonomija, ekologija, 1-2 (2020), (str. 102-111)

АУТОР(И): Željko V. Despotović, Marko Tajdić, Jovan Kon

Е-АДРЕСА: zeljko.despotovic@pupin.rs, marko.tajdic@pupin.rs, jovan.kon@pupin.rs

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DOI: 10.46793/EEE20-1-2.102D

САЖЕТАК:

U radu će biti prikazana realizacija hibridnog  sistema za napajanje telekomunikacione i merne opreme daljinskih mernih stanica, koje su integralni deo sistema za zaštitu od poplava. Napajanje je bazirano na korišćenju solarne energije u kombinaciji sa mrežnim napajanjem. Solarno napajanje je primarni izvor napajanja tokom dana, dok se u noćnim uslovima kao napajanje koristi distributivna mreža koja napaja uličnu rasvetu. Sistem napajanja  je realizovan sa dva kontrolisana MPPT punjača (mrežni i solarni), baterijskom bankom 12V/110Ah i pripadajućim sistemom za njen monitoring. U radu će biti prikazani ključni eksperimentalni rezultati dobijeni tokom puštanja konkretno realizovane merne stanice nivoa i pripadajuće komunikacione opreme, na reci Ub, opština Ub.

КЉУЧНЕ РЕЧИ:

solarno napajanje, mrežno napajanje, merna stanica, radio prenos, zaštita od poplava

ЛИТЕРАТУРА:

  • Stankov, „Napajanje individualnih potrošača hibridnim sistemima“, Zbornik Međunarodnog kongresa o procesnoj industriji – Procesing, [S.l.], Vol. 27, No. 1, Apr. 2017.
  • Radaković, N. Paunović, I. Mitev, „Optimalno projektovanje hibridnog sistema za off-grid napajanje električnom energijom“, 17. Telekomunikacioni forum TELFOR 2009, Beograd, 24 – 26 November 2009.
  • V. Nayar, M. Ashari, W.W.L. Keerthipala, „A grid-interactive photovoltaic uninterruptible power supply system using battery storage and a back up diesel generator”, IEEE Trans. on Energy Conversion, Volume 15, iss. 3, pp. 348 – 353, Sep 2000.
  • M. Mahmoud and I. H. Ibrik, „Techno-economic feasibility of energy supply of remote villages in Palestine by PV-systems, diesel generators and electric grid,” Renewable and Sustainable Energy Reviews, vol. 10, no. 2, pp. 128–138, 2006.
  • S.Durgam, A.B.Musale,S.A.Balki, P.S.Gahane, L.B. Awale, „AC Hybrid Charge Controller“, Int. Journal of Engineering Research and Applications , Vol. 5, Issue 3, ( Part -5) March 2015, pp.5-10
  • Chih-Lung Shen, Yong-Xian Ko, „Hybrid-input power supply with PFC (power factor corrector) and MPPT (maximum power point tracking) features for battery charging and HB-LED driving“, Energy,72, No.1, August 2014, pp.501-509
  • Hicham Fakham, Di Lu, Bruno Francois, „Power Control Design of a battery charger in a Hybrid Active PV generator for load following applications“, IEEE Transaction on Industrial Electronics, Vol. 58, Iss. 1 , pp. 85-94, Jan. 2011, TIE-09-1370.
  • A. Omar and M.M. Mahmoud, „Design and Simulation of a PV System Operating in Grid-Connected and Stand-Alone Modes for Areas of Daily Grid Blackouts“, International Journal of Photoenergy, Volume 2019, Article ID 5216583, 9 pages, https://doi.org/10.1155/2019/5216583
  • Alramlawi, A. Gabash, E. Mohagheghi, and P. Li, „Optimal operation of hybrid PV-battery system considering grid scheduled blackouts and battery lifetime”, Solar Energy, vol. 161, pp. 125–137, 2018.
  • Delille, B. François, „A review of some technical and economic features of energy storage technologies for distribution system integration”, Ecological engineering and environment protection, pp. 40-48, vol. 1, ISSN 1311 – 8668, 2009.
  • K. Lo, H. J. Chiu, T. P. Lee, I. Purnama, J. M. Wang, „Analysis and Design of a Photovoltaic System DC connected to the Utility With a Power Factor Corrector”, IEEE Transaction on Industrial Electronics, vol.56, iss. 11, pp. 4354- 4362, Nov. 2009.
  • P. Dunlop, Batteries and charge control in stand-alone photovoltaic systems, Fundamentals and application, Report prepared for Sandia National Laboratories, Florida Solar Energy Center, Jan.1997.
  • PHOTOVOLTAIC GEOGRAPHICAL INFORMATION SYSTEM https://re.jrc.ec.europa.eu/pvg_tools/en/tools.html#MR