Unified power flow controllers in smart power systems: models, methods, and future research

被引:24
|
作者
Georgilakis, Pavlos S. [1 ]
Hatziargyriou, Nikos D. [1 ]
机构
[1] Natl Tech Univ Athens NTUA, Sch Elect & Comp Engn, 9 Heroon Politechniou St, Athens, Greece
来源
IET SMART GRID | 2019年 / 2卷 / 01期
关键词
load flow control; voltage control; power system control; reactive power control; renewable energy sources; unified power flow controllers; smart power systems; variable renewable energy sources; UPFC; active power flow control; reactive power flow control; FUNCTION NEURAL-NETWORK; LINE LOSS MINIMIZATION; STEADY-STATE; TRANSIENT STABILITY; UPFC MODEL; DYNAMIC PERFORMANCE; DISTANCE RELAY; NONLINEAR CONTROL; OPTIMAL LOCATION; VOLTAGE CONTROL;
D O I
10.1049/iet-stg.2018.0065
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Power flow control has become increasingly important in recent years in the area of smart power systems that have to integrate increased shares of variable renewable energy sources. The unified power flow controller (UPFC) provides in real-time, simultaneously or selectively, active and reactive power flow control as well as voltage control in smart power systems. Several models and methods have been suggested for the control, analysis, operation, and planning of UPFCs in smart power systems. This study introduces a review of the state-of-the-art models and methods of UPFCs in smart power systems, analysing and classifying current and future research trends in this field.
引用
收藏
页码:2 / 10
页数:9
相关论文
共 50 条
  • [41] Unified power flow controller models for three-phase power flow analysis
    X. -P. Zhang
    Electrical Engineering, 2006, 88 : 247 - 257
  • [42] Unified power flow controller models for three-phase power flow analysis
    Zhang, XP
    ELECTRICAL ENGINEERING, 2006, 88 (04) : 247 - 257
  • [43] Methods for Improving the Quality of Electric Power in the Unified Marine Power Systems
    Yasakov G.S.
    Dmitriev B.F.
    Kalmykov A.N.
    Lebedev V.M.
    Russian Electrical Engineering, 2017, 88 (12) : 773 - 777
  • [44] Second order SM Unified Power Flow Controller for power systems
    Robles-Aguirre, F.
    Canedo, J. M.
    Fridman, L.
    Loukianov, A. G.
    2008 INTERNATIONAL WORKSHOP ON VARIABLE STRUCTURE SYSTEMS, 2008, : 349 - +
  • [45] Optimal location of the unified power flow controller in electrical power systems
    Abdelsalam, HA
    Aly, GAM
    Abdelkrim, M
    Shebl, KM
    2004 IEEE PES POWER SYSTEMS CONFERENCE & EXPOSITION, VOLS 1 - 3, 2004, : 1391 - 1396
  • [46] Optimal location of the unified power flow controller in electrical power systems
    Abdelsalam, HA
    Aly, GEM
    Abdelkrim, M
    Shebl, KM
    2004 LARGE ENGINEERING SYSTEMS CONFERENCE ON POWER ENGINEERING, CONFERENCE PROCEEDINGS: ENERGY FOR THE DAY AFTER TOMORROW, 2004, : 41 - 46
  • [47] Communication-free decentralized power flow control of unified power flow controllers and phase-shifting transformers in high voltage transmission systems
    Choudhury, Soham
    Saciak, Andreas
    Hanson, Jutta
    IET GENERATION TRANSMISSION & DISTRIBUTION, 2023, 17 (13) : 2938 - 2952
  • [48] Control setting of unified power flow controllers through a robust load flow calculation
    Fang, WL
    Ngan, HW
    IEE PROCEEDINGS-GENERATION TRANSMISSION AND DISTRIBUTION, 1999, 146 (04) : 365 - 369
  • [49] Comparison of Harmony Search Algorithm and Particle Swarm Optimization for Optimal Placement and Sizing of Unified Power Flow Controllers in Deregulated Power Systems
    Mahmoudabadi, D. Dehghani
    Rezazadeh, A.
    Sedighizadeh, M.
    INTERNATIONAL REVIEW OF ELECTRICAL ENGINEERING-IREE, 2011, 6 (05): : 2448 - 2455
  • [50] Steady-state power flow and voltage control by unified power-flow controllers, part 2: Applications
    Song, YH
    Liu, JY
    EUROPEAN TRANSACTIONS ON ELECTRICAL POWER, 2000, 10 (02): : 81 - 85
12345