• DocumentCode
    1758352
  • Title

    Decoupled Active and Reactive Power Control for Large-Scale Grid-Connected Photovoltaic Systems Using Cascaded Modular Multilevel Converters

  • Author

    Liming Liu ; Hui Li ; Yaosuo Xue ; Wenxin Liu

  • Author_Institution
    ABB Inc., Raleigh, NC, USA
  • Volume
    30
  • Issue
    1
  • fYear
    2015
  • fDate
    Jan. 2015
  • Firstpage
    176
  • Lastpage
    187
  • Abstract
    Large-scale grid-connected photovoltaic (PV) systems significantly contribute to worldwide renewable energy growth and penetration, which has inspired the application of cascaded modular multilevel converters due to their unique features such as modular structures, enhanced energy harvesting capability, scalability and so on. However, power distribution and control in the cascaded PV system faces tough challenge on output voltage overmodulation when considering the varied and nonuniform solar energy on segmented PV arrays. This paper addresses this issue and proposes a decoupled active and reactive power control strategy to enhance system operation performance. The relationship between output voltage components of each module and power generation is analyzed with the help of a newly derived vector diagram which illustrates the proposed power distribution principle. On top of this, an effective control system including active and reactive components extraction, voltage distribution and synthesization, is developed to achieve independent active and reactive power distribution and mitigate the aforementioned issue. Finally, a 3-MW, 12-kV PV system with the proposed control strategy is modeled and simulated in MATLAB and PSIM cosimulation platform. A downscaled PV system including two cascaded 5-kW converters with proposed control strategy is also implemented in the laboratory. Simulation and experimental results are provided to demonstrate the effectiveness of the proposed control strategy for large-scale grid-connected cascaded PV systems.
  • Keywords
    photovoltaic power systems; power convertors; power generation control; power grids; reactive power control; MATLAB; PSIM cosimulation platform; active component extraction; cascaded PV system; cascaded modular multilevel converters; decoupled active-reactive power control strategy; down-scaled PV system; enhanced energy harvesting capability; independent active power distribution; large-scale grid-connected PV systems; large-scale grid-connected photovoltaic systems; modular structures; nonuniform solar energy; output voltage component; output voltage overmodulation; power 3 MW; power 5 kW; power distribution principle; power generation; reactive component extraction; reactive power distribution; renewable energy growth; renewable energy penetration; segmented PV arrays; vector diagram; voltage 12 kV; voltage distribution; Capacitors; Control systems; Inverters; Power distribution; Reactive power; Reactive power control; Voltage control; Cascaded PV system; decoupled active and reactive power control; voltage distribution;
  • fLanguage
    English
  • Journal_Title
    Power Electronics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0885-8993
  • Type

    jour

  • DOI
    10.1109/TPEL.2014.2304966
  • Filename
    6733356