• DocumentCode
    1913927
  • Title

    Improved Real-Time Computation Engine for a Dispatcher Training Center of the European Transmission Network

  • Author

    Haut, Bertrand ; Bouchez, Francois-Xavier ; Villella, Fortunato

  • Author_Institution
    Tractebel Eng., Power Syst. Consulting, Brussels, Belgium
  • fYear
    2012
  • fDate
    10-16 Nov. 2012
  • Firstpage
    333
  • Lastpage
    340
  • Abstract
    Dispatcher Training Simulators (DTS) are fundamental tools used by Transmission System Operators (TSO´s) and Distribution System Operators (DSO´s) around the world to train their dispatchers on frequent or uncommon situations. DTS widely used are generally based on simplified models for the system dynamics (static modelling or very simplified dynamics) and are limited to small/medium systems due to constraints in computational performance. Taking into account fast dynamics on large system is a real challenge for the simulation engine of a DTS. Indeed, in order to represent effectively the reaction of the power system, the simulation must be carried out very close to real-time. The PEGASE project addressed this challenge on the European Transmission Network (ETN). Many different algorithms were investigated and several have been implemented in a prototype based on FAST, a full-dynamic DTS simulation engine developed by Tractebel Engineering S.A. and integrated in the Energy Management System (EMS) of several TSO´s. This paper describes the considered algorithmic improvements and presents numerical results (both in terms of accuracy and efficiency) obtained on a representation of the whole ETN.
  • Keywords
    computer based training; digital simulation; energy management systems; load dispatching; numerical analysis; power engineering computing; real-time systems; transmission networks; DSO; EMS; ETN; European transmission network; PEGASE project; TSO; Tractebel Engineering; algorithmic improvements; computational performance; dispatcher training center; dispatcher training simulators; distribution system operators; energy management system; full-dynamic DTS simulation engine; improved real-time computation engine; power system; simplified dynamics; small-medium systems; static modelling; transmission system operators; High performance computing; Large-scale system; Numerical simulation; Parallel algorithms; Power system stability; Software performance; Time domain analysis; Training;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    High Performance Computing, Networking, Storage and Analysis (SCC), 2012 SC Companion:
  • Conference_Location
    Salt Lake City, UT
  • Print_ISBN
    978-1-4673-6218-4
  • Type

    conf

  • DOI
    10.1109/SC.Companion.2012.52
  • Filename
    6495834