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Improvement of energy quality through the application of BtB STATCOM in a power system

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PL
Poprawa jakości energii poprzez zastosowanie BtB STATCOM w systemie elektroenergetycznym
Języki publikacji
EN
Abstrakty
EN
Currently and in the last few years, the subject of integrating FACTS in a power system will have more importance within industrial scientific research. This is mainly due to the liberalization of the electricity sector and the development of power electronics. Very often, the quality of electrical transmission is restricted by constraints of voltage setting and the maximum transmissible power of the lines. These constraints can be overcome by the creation of new lines. However, creating new lines is not always possible for various reasons. The implementation of FACTS devices and more particularly of the BtB STATCOM system constitute an alternative to the creation of new lines. It can lead to the strengthening of the power system and the improvement of the energy quality. It is this solution that we have examined in this work which shows that the BtB STATCOM device improves, in steady state conditions, the performances of a power system such as the reduction of voltage drops and power losses in the electrical transmission lines.
PL
Obecnie iw ostatnich latach temat integracji FACTS w systemie elektroenergetycznym będzie miał coraz większe znaczenie w przemysłowych badaniach naukowych. Wynika to głównie z liberalizacji sektora elektroenergetycznego i rozwoju energoelektroniki. Bardzo często jakość przesyłu energii elektrycznej jest ograniczona ograniczeniami nastawy napięcia i maksymalnej dopuszczalnej mocy linii. Te ograniczenia można przezwyciężyć, tworząc nowe linie. Jednak tworzenie nowych linii nie zawsze jest możliwe z różnych powodów. Wdrożenie urządzeń FACTS, aw szczególności systemu BtB STATCOM, stanowi alternatywę dla tworzenia nowych linii. Może prowadzić do wzmocnienia systemu elektroenergetycznego i poprawy jakości energii. Właśnie to rozwiązanie, które zbadaliśmy w niniejszej pracy, pokazuje, że urządzenie BtB STATCOM poprawia w warunkach stanu ustalonego działanie systemu elektroenergetycznego, takie jak redukcja spadków napięć i strat mocy w liniach elektroenergetycznych.
Rocznik
Strony
164--170
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
  • Laboratory of Energy Engineering and Computer Engineering (L2GEGI), Department of Electrical Engineering, Faculty of Applied Sciences, University of Tiaret, BP 78 Size Zarroura, Tiaret 14000, Algeria
  • Laboratory of Applied Automation and Industrial Diagnostics (L2GEGI), Department of Electrical Engineering, Faculty of Sciences and Technology, University of Djelfa, BP 3117, Moudjbara Road, Djelfa 17000, Algeria
  • Laboratory of Energy Engineering and Computer Engineering (L2GEGI), Department of Electrical Engineering, Faculty of Applied Sciences, University of Tiaret, BP 78 Size Zarroura, Tiaret 14000, Algeria
  • Laboratory of Energy Engineering and Computer Engineering (L2GEGI), Department of Electrical Engineering, Faculty of Applied Sciences, University of Tiaret, BP 78 Size Zarroura, Tiaret 14000, Algeria
Bibliografia
  • [1] Enrique Acha, Claudio R. Fuerte-Esquivel, Hugo Ambriz-Pe´rez, Ce´sar Angeles-Camacho, “FACTS Modelling and Simulation in Power Networks”, BOOK Wiley Editorial Offices : Copyright # 2004 John Wiley & Sons Ltd, The Atrium, SouthernGate, Chichester, West Sussex PO19 8SQ, England.
  • [2] Ruslan Ufa, Alexandr Gusev, Ahmed A. Zaki Diab, Aleksey Suvorov, Nikolay Ruban, Mikhail Andreev, Alisher Askarov, Vladimir Rudnik, Omer Abdalla, Ziad M. Ali, Ahmed Ibrahim, Raef Aboelsaud, “Analysis of application of back-to-back HVDC system in Tomsk electric power system”, Energy Reports, 6(2020), 438-444. https://doi.org/10.1016/j.egyr.2020.01.017
  • [3] Ahmet M. Vural, Kamil C. Bayindir., “Transient stability improvement using quasi-multi pulse BTB-STATCOM”, Advances in Energy Research, 2 (2014), No. 1, 47-59. http://www.techno- press.org/fulltext/j_eri/eri2_1/eri0201005.pdf
  • [4] Yeshitela Shiferaw Maru, K. Padma, “The Optimal Power Flow Solution by Optimal Location of STATCOM Device using AHP Method”, International Journal of Innovative Technology and Exploring Engineering (IJITEE), 9 (2020), Issue. 4, 2561- 2569.DOI: 10.35940/ijitee.D1944.029420
  • [5] Dr R. Ilango, T. Santhosh kumar, S. Sathiesh kumar, “Load Flow & Transient Stability Analysis For IEEE 5 Bus System Using UPFC”, INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH Vol. 9, Issue. 4, April 2020, pp. 1349- 1352. http://www.ijstr.org/final-print/apr2020/Load-Flow-Transient-Stability-Analysis-Forieee-5-Bus-System-Using-Upfc.pdf
  • [6] IMDADULLAH, SYED MUHAMMAD AMRR , M. S. JAMIL ASGHAR, IMTIAZ ASHRAF 1, MOHAMMAD MERAJ, “A Comprehensive Review of Power Flow Controllers in Interconnected Power System Networks”, IEEE Access, 8 (2020), 18036- 18063. DOI: 10.1109/ACCESS.2020.2968461
  • [7] Aditya Chorghade, Vandana A. Kulkarni (Deodhar), “FACTS Devices for Reactive Power Compensation and Power Flow Control – Recent Trends”, 2020 International Conference on Industry 4.0 Technology (I4Tech) Vishwakarma Institute of Technology, Pune, India. Feb 13-15, 2020, 217-221. https://ieeexplore.ieee.org/document/9102640
  • [8] Young Ok Lee, Hyun Jae Kang, Youngseong Han, and Chung Choo Chung, “A Nonlinear Control for a BTB STATCOM System with Asymmetrically Structured Converters”, 2011 IEEE TRONDHEIM POWERTECH CONFERENCE, JUNE 19–23, TRONDHEIM, NORWAY. https://ieeexplore.ieee.org/document/6019219
  • [9] Jelena Stojkovi´c , Aleksandra Leki´c, Predrag Stefanov, “Adaptive Control of HVDC Links for Frequency Stability Enhancement in Low-Inertia Systems”, Energies, 13 (2020), Issue. 23, 1-20. https://doi.org/10.3390/en13236162
  • [10] Alcalá, J.; Cárdenas, V.; Espinoza, J.; Durán, M., “Investigation on the limitation of the BTB-VSC converter to control the active and reactive power flow”, Electric Power Systems Research,143 (2017), 149–162. https://doi.org/10.1016/j.epsr.2016.09.012
  • [11] Zeng, L.; Yao,W.; Zeng, Q.; Li, D.; Fang, J.; Ai, X.;Wen, J.; He, H., “Design and real-time implementation of data-driven adaptive wide-area damping controller for back-to-back VSC-HVDC”, Int. J. Electr. Power Energy Syst. 109 (2019), 558–574. https://doi.org/10.1016/j.ijepes.2019.02.024
  • [12] MOHAMADREZA BARADAR, “Modeling of Multi Terminal HVDC Systems in Power Flow and Optimal Power Flow Formulations”, PHD Thesis, KTH School of Electrical Engineering, SE-100 44 Stockholm, SWEDEN 2013. http://www.diva-portal.org/smash/get/diva2:588780/FULLTEXT0.pdf
  • [13] Yunfeng Li; Guangfu Tang; Ting An; Hui Pang; Puyu Wang; Jie Yang; Yanan Wu; Zhiyuan He, “Power compensation control for interconnection of weak power systems by VSC-HVDC”, IEEE Transactions on Power Delivery,32 (2017), No. 4, 1964–1974. DOI: 10.1109/TPWRD.2016.2602890
  • [14] Wang Xiang, Ruizhang Yang, Chang Lin, Jiapei Zhou, Jinyu Wen, Weixing Lin, “A Cascaded Converter Interfacing Long Distance HVDC and Back-to-Back HVDC Systems”, IEEE Journal of Emerging and Selected Topics in Power Electronics, 8 (2020), Issue. 4, 4109 – 4121. DOI: 10.1109/JESTPE.2019.2913915
  • [15] Yinbiao Shu, Senior, Guangfu Tang, Hui Pang, “A Back-to-back VSC-HVDC System of Yu-E Power Transmission Lines to Improve Cross-region Capacity”, CSEE JOURNAL OF POWER AND ENERGY SYSTEMS, 6 (2020), No. 1, 64-71. DOI: 10.17775/CSEEJPES.2018.0128
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a6b57732-b197-4838-b44d-f49d465a7e98
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