Sterowanie i prowadzenie ruchu systemu elektroenergetycznego - Komitet Studiów C2

• Autorzy: Madajewski K.

Warianty tytułu

EN

Control and operation of an electric power system – Study Committee C2

• Języki publikacji: PL

Abstrakty

PL

Sesja plenarna Komitetu Studiów C2 obejmowała trzy tematy preferowane: Nowe rozwiązania w sterowaniu i prowadzeniu ruchu dla rozpoznawania i poprawy warunków pracy SEE, Ewolucja standardów niezawodności w kontekście otwartego rynku i zmniejszonych zapasów bezpieczeństwa oraz Wpływ dużych farm wiatrowych na sterowanie i prowadzenie ruchu SEE.

EN

Plenary session of the Study Committee C2 comprised three preferred subjects: New solutions in control and operation to evaluate and improve SEE (Electric Power System) working conditions, Evolution of reliability standards in the context of the open market and reduced margins of safety and Influence of big wind farms on control and operation of SEE.

Słowa kluczowe

PL

system WAMS; system elektroenergetyczny

EN

WAMS system; electric power system

• Wydawca: Oficyna Wydawnicza Energia [Stowarzyszenie Elektryków Polskich - COSiW]
• Czasopismo: Energetyka
• Rocznik: 2009
• Tom: nr 3
• Strony: 184--190
• Opis fizyczny: Bibliogr. 31 poz., rys.

Twórcy

autor

Madajewski K.

• Instytut Energetyki, Oddział Gdańsk

Bibliografia

• [1] Ayuev B., Erokhine P., Kulikow Y.: PMU application for IPS/UPS dynamic performance monitoring and study
• [2] Rauhala T., Saarinen K., Kaukonen T.: On applications and quality of subsynchronous frequency components extracted from phasor measurement unit measurement data
• [3] Kim S. et al.: Development of K-WAMS for monitoring Korean power grid security, and application to the future IT infrastructure design
• [4] Rouden K., Larsson J.: Real-Time detection of originating events in large alarm cascades
• [5] Wilson D. et al.: Control center applications of integrated WAMS -based dynamics monitoring and energy management systems
• [6] Moslehi K. et al.: Smart infrastructure for self-healing power grid - concept for coordinated intelligent control
• [7] Soonee S. et al.: Application of phase angle measurement for real time security monitoring of Indian power system - an experience
• [8] Naggar R. et al.: Restoration of Hydro-Quebec bulk power system using RECRE
• [9] Alvez F. et al.: Changing paradigms for increased productivity in power system restoration studies: The Brazilian ISO experience
• [10] Gomes P., Guarini A. : Requirements in design and implementation of restoration facilities and procedures in order to improve power system restoration: The Brazilian experience
• [11] Avila-Rosales R. et al.: Impact of PMU technology in state estimation
• [12] Sezi T. et al.: Bringing new visualization tools for the detection and mitigation of dynamic phenomena in the transmission system
• [13] Krebs R. et al.: Blackout prevention by online network and protection security assessment: 1st DSA-experiences from North Africa
• [14] Giannuzzi G. et al.: Voltage and angle stability monitoring: possible approaches in the framework of wide area measurement system (WAMS)
• [15] Nordstrom L., Narman P., Johnson P.: Modelling and evaluating non-functional aspects of integrated protection and control systems
• [16] Bertolini P., Pescarou S., Juston P.: Contribution of generating units to load frequency and voltage control in France: contractual agreements and performance monitoring by RTE
• [17] Burger L. et al.: Various methods for forecasting cross-border power flows in the Hungarian transmission system
• [18] Thalassinakis E. et al.: A method evaluating the impact of various parameters on a frequency security criterion of isolated power systems
• [19] Nikolovski S. et al.: Reliabity assessment of Croatian power system in open electricity market environment
• [20] Bondarenko A. et al.: Digital models perfection for solving problems of IPS/UPS system reliability
• [21] Cremenescu M. et al.: Joint & coordinated development of operators in control centers from different companies & nationalities
• [22] Blaettler M. et al : Emergency organization and crisis management in system operation
• [23] Bassi F. et al.: The new DTS for the Italian transmission system dispatcher: organization, architecture, tools and functionalities
• [24] El-Werfelli M. et al.: Design of an optimized defense plan fora power system
• [25] Smith J.: The role of wind forecasting in utility system operation
• [26] Dudurych I, Jones H., Power M.: The control of a power system with a high wind power penetration: Ireland's experience
• [27] Ernst B., Reyer F., Rohrig K.: Usage and enhancement of wind power predition tools at RWE Transportnetz Strom GmbH (RWE TSO)
• [28] Scirocco B. et al.: Integration of large wind generation in the Italian power system: security enhancement and prediction system development
• [29] Abildgaard H. et al.: European wind integration study (EWIS) - reference study towards a successful integration of wind power into European electricity grids
• [30] Gonzalez G. et al.: SIPREOLICO: Wind power prediction tool improvement in the period 2005 - 2007
• [31] Sakamoto K. et al.: Wind power forecasting and application of batteries for stabilization in Japan