On Grid Partitioning in AC Optimal Power Flow

被引:0
|
作者
Murray, Alexander [1 ]
Kyesswa, Michael [1 ]
Schmurr, Philipp [1 ]
Cakmak, Hueseyin [1 ]
Hagenmeyer, Veit [1 ]
机构
[1] Karlsruhe Inst Technol, Karlsruhe, Germany
来源
2020 IEEE PES INNOVATIVE SMART GRID TECHNOLOGIES EUROPE (ISGT-EUROPE 2020): SMART GRIDS: KEY ENABLERS OF A GREEN POWER SYSTEM | 2020年
关键词
Distributed algorithms; Partitioning algorithms; Power grids; Mathematical programming; ALGORITHM;
D O I
暂无
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
The AC optimal power flow problem is known to be highly non-convex and scale very poorly with respect to the number of lines and buses. One possible solution is to subdivide and parallelize the problem through distributed optimization. However, the question of how to optimally partition a power grid for use in distributed optimization remains open in the literature. To this end, we compare the graph partitioners KaFFPa and METIS as well as two spectral clustering methods to the standard IEEE 9, 14, 30, 39, 57, 118, 300 bus models. The distributed algorithm ALADIN is used to solve the partitioned OPF problems. For larger grids, KaFFPa yields the best results on average.
引用
收藏
页码:524 / 528
页数:5
相关论文
共 50 条
  • [1] Impact of grid partitioning algorithms on combined distributed AC optimal power flow and parallel dynamic power grid simulation
    Kyesswa, Michael
    Murray, Alexander
    Schmurr, Philipp
    Cakmak, Hueseyin
    Kuehnapfel, Uwe
    Hagenmeyer, Veit
    [J]. IET GENERATION TRANSMISSION & DISTRIBUTION, 2020, 14 (25) : 6133 - 6141
  • [2] Impact of Partitioning on the Performance of Decomposition Methods for AC Optimal Power Flow
    Guo, Junyao
    Hug, Gabriela
    Tonguz, Ozan
    [J]. 2015 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT), 2015,
  • [3] Impact of Partitioning on the Performance of Decomposition Methods for AC Optimal Power Flow
    Guo, Junyao
    Hug, Gabriela
    Tonguz, Ozan
    [J]. 2015 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT), 2015,
  • [4] Optimal Power Flow for Hybrid AC/DC Grid With Power Electronic Transformer
    Geng, Qi
    Hu, Yan
    He, Jianzong
    Zhou, Yongyan
    Zhao, Wei
    [J]. Dianwang Jishu/Power System Technology, 2019, 43 (09): : 3288 - 3296
  • [5] A Modular AC Optimal Power Flow Implementation for Distribution Grid Planning
    Hauswirth, Adrian
    Summers, Tyler
    Warrington, Joseph
    Lygeros, John
    Kettner, Andreas
    Brenzikofer, Alain
    [J]. 2015 IEEE EINDHOVEN POWERTECH, 2015,
  • [6] Active Distribution Grid Management Based on Robust AC Optimal Power Flow
    Soares, Tiago
    Bessa, Ricardo J.
    Pinson, Pierre
    Morais, Hugo
    [J]. IEEE TRANSACTIONS ON SMART GRID, 2018, 9 (06) : 6229 - 6241
  • [7] Distributed Optimal Power Flow of AC/DC Interconnected Power Grid Using Synchronous ADMM
    Liang, Zijun
    Lin, Shunjiang
    Liu, Mingbo
    [J]. 2017 2ND ASIA CONFERENCE ON POWER AND ELECTRICAL ENGINEERING (ACPEE 2017), 2017, 199
  • [8] Applications of Homotopy for Solving AC power flow and AC Optimal Power Flow
    Cvijic, Sanja
    Feldmann, Peter
    Ilic, Marija
    [J]. 2012 IEEE POWER AND ENERGY SOCIETY GENERAL MEETING, 2012,
  • [9] Distributed AC-DC Optimal Power Flow in the European Transmission Grid with ADMM
    Huebner, Nico
    Rink, Yannick
    Suriyah, Michael
    Leibfried, Thomas
    [J]. 2020 55TH INTERNATIONAL UNIVERSITIES POWER ENGINEERING CONFERENCE (UPEC), 2020,
  • [10] Robust AC Optimal Power Flow
    Louca, Raphael
    Bitar, Eilyan
    [J]. IEEE TRANSACTIONS ON POWER SYSTEMS, 2019, 34 (03) : 1669 - 1681
12345