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Tytuł artykułu

Structure Design and Performance Analysis of Substation Area Backup Protection Communication Network in Smart Substation

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Warianty tytułu
PL
Projektowanie struktury i analiza działania sieci komunikacji na potrzeby rezerwowego systemu zabezpieczeń w obszarze inteligentnej podstacji
Języki publikacji
EN
Abstrakty
EN
In this paper, the general design of substation area backup protection (SABP) communication network in smart substation is proposed, and taking a practical 220kV smart substation for the application object, the communication network’s specific structure is constructed. Besides, the specific network’s real-time performance is studied based on theoretical analysis and OPNET simulation, and its reliability is calculated according to reliability block diagram and fault tree combining with Bayesian technology. The results show that the two performances can meet the requirements.
PL
W artykule przedstawiono projekt sieci komunikacyjnej na potrzeby rezerwowego systemu zabezpieczeń w obszarze inteligentnej podstacji elektroenergetycznej. Proponowaną strukturę sieci zaimplementowano dla inteligentnej podstacji 220kV. Przeprowadzono także symulacje (OPNET) i analizę teoretyczną wydajności sieci w czasie rzeczywistym oraz parametrycznie określono jej niezawodność.
Rocznik
Strony
182--186
Opis fizyczny
Bibliogr. 19 poz., rys.
Twórcy
autor
  • Post-doctoral Scientific Research Workstation of Hubei Electric Power Company
autor
  • Hubei Electric Power Research Institute
autor
  • Hubei Electric Power Research Institute
autor
  • Hubei Electric Power Research Institute
Bibliografia
  • [1] Wang Y.M., Pan Z., Study on Test Technology of Smart Substation Secondary System, in International Conference on Consumer Electronics, Communications and Networks, (2011), 784-787
  • [2] Chen L., Zhang K.J., Xia Y.J., et al, Impacts of Digital and Networked Technologies Used in Smart Substation on Relay Protection, in International Conference on Electrical and Control Engineering, (2011), 3947-3950
  • [3] Xu Y., Wang H.Z., Li Q., et al, Development of Synchronized Phasor Measurement Units for Smart Substations, Power System Technology, 34 (2010), No. 11, 1-5
  • [4] Duan B., Chen G.Q., Lin Y.Y., et al, On-Line Interlocking Implementation Based on Process Bus Communication of Digital Substation, Power System Technology, 33 (2009), No. 19, 37-43
  • [5] Wang D.Q., Li G., He F.Y., Design of Integrative Information Platform for Smart Substations, Power System Technology, 34 (2010), No. 10, 20-25
  • [6] Wu G.Y., Wang Q.P., Li G., Study of Centralized Protection Based on Digital Substation, Power System Protection and Control, 37 (2009), No. 10, 15-18
  • [7] Zhang B.H., Zhou L.C., Centralized Substation Backup Protection, Electric Power Automation Equipment, 29 (2009), No. 6, 1-5
  • [8] Ma Y.L., Wang L.J., Wen M.H., et al, The Study of a New Method for Digital Substation Centralized Protection to Cope with Boundary Information Deficiency, Power System Protection and Control, 39 (2011), No. 6, 84-89
  • [9] Zhao M.Y., Zhou H.Y., Chen Z.H., et al, An Integrated Protection System Based on Wide Area Information, Southern Power System Technology, 3 (2009), No. 6, 9-12
  • [10] Zhou S., Wang X.R., Qian Q.Q., Fault Diagnosis Approach Based on Bayesian Networks for Wide Area Backup Protection of Power System, Automation of Electric Power Systems, 34 (2010), No. 4, 44-48
  • [11] Mackiewic z R.E., Overview of IEC61850 and Benefits, in Proc. IEEE Power Eng. Soc. General Meeting, (2006), 1-8
  • [12] Wang Q.H., Wu Z.J., Zhao S.L., et al, Application of IEEE 1588 Time Synchronization in Digital Substation, Power System Protection and Control, 38 (2010), No. 19, 137-141+169
  • [13] Hu C.C., Cai Z.X., Zhu Z.H., Frame-based Transmission Reliability Analysis of the Digital Substation Key Messages, Power System Protection and Control, 39 (2011), No. 9, 91-96
  • [14] Xu Z.Q., Lei Y.T., Zhang K.R., et al, An Approach of Time Measurement for Intelligent Components in Smart Substations, Power System Technology, 35 (2011), No. 12, 8-13
  • [15] Tong X.Y., Liao C.S., Zhou L.L., et al, The Simulation of Substation Communication Network Based on IEC 61850-9-2, Automation of Electric Power Systems, 34 (2010), No. 2, 69-74
  • [16] Wang W.L., Liu M.H., Research on the Shared-network of SMV and GOOSE in Smart Substation, Proceedings of the CSEE, 35 (2011), supplement, 55-59
  • [17] Wang Z., Zhang F., Real-time Performance Simulation of Communication Network of Substation Layer Based on OPNET Modeler, Microcomputer & its applicationes, 29 (2010), No. 21, 49-51+54
  • [18] Huang C., Xiao C.F., Fang Y., et al, A Method to Deal With Packet Transfer Delay of Sampled Value in Smart Substation, Power System Technology, 35 (2011), No. 1, 5-10
  • [19] Hou W.H., Zhang P.C., Hu Y., Reliability and Availability Study of the Digital Substation System, Power System Protection and Control, 38 (2010), No. 14, 34-38
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ed6e36f0-7eda-4f74-a0e0-71bdcbe6716b
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