Układy przesyłowe prądu stałego i urządzenia FACTS – Komitet Studiów B4

• Autorzy: Madajewski K.

Warianty tytułu

EN

DC transmission systems and FACTS appliances – Study Committe B4

• Języki publikacji: PL

Abstrakty

PL

Omówiono referaty zaprezentowane na sesji plenarnej Komitetu Studiów B4 CIGRE "Połączenia prądu stałego i urządzenia energoelektroniczne w systemach elektroenergetycznych" obejmujące trzy tematy preferowane: Rozwiązania konwencjonalne oraz UHV układów HVDC, Nowe rozwiązania i wdrożenia urządzeń energoelektronicznych oraz Zastosowania układów FACTS i nowe rozwiązania w tym zakresie.

EN

Discussed are papers delivered on the CIGRE Study Committee B4 plenary session "Interconnections of direct current and power electronics devices in electric power systems" comprising three preferred subjects: Conventional and UHV solutions of HVDC systems, New solutions and implementation of power electronics devices and FACTS systems applications and new solutions in this field.

Słowa kluczowe

PL

układ HVDC; układ VSC HVDC

EN

HVDC system; VSC HVDC system

• Wydawca: Oficyna Wydawnicza Energia [Stowarzyszenie Elektryków Polskich - COSiW]
• Czasopismo: Energetyka
• Rocznik: 2009
• Tom: nr 3
• Strony: 171--177
• Opis fizyczny: Bibliogr. 30 poz., rys., tab.

Twórcy

autor

Madajewski K.

• Instytut Energetyki, Oddział Gdańsk

Bibliografia

• [1] Takasaki M., et al.: Recent progress in Japanese HVDC projects
• [2] Tsfasman G., et al.: New integrated control and protection system for Vyborg Back-to-Back HVDC link
• [3] Esmeraldo P., et al.: Feasibility studies for Madeira transmission system technical and economic analysis
• [4] Kjergard J., et al.: The new Storebaelt HVDC project for interconnecting Eastern and Western Denmark
• [5] Nayak R., et al.: Selection of ground electrode sites using geophysical techniques for resistivity measurements for first - 800 kV HVDC system in India
• [6] Khare D., et al.: RTDS simulation studies on the upcoming multi-infeed HVDC systems in India
• [7] Dhaliwal N., et al.: Application of reliability centered maintenance (RCM) to HVDC converter station
• [8] Griffiths P., et al.: Planning for New Zealand's inter-island HVDC pole 1 replacement
• [9] Velazquez R., et al.: Technical and economical consideration of an HVDC submarine interconnection between the Mexican electrical system and the Baja California Sur Grid
• [10] Xiao Y, Wu Z., Hong C.: Overview of HVDC system operation in China Southern power grid
• [11] Tuson P.M.: HVDC to connect dispersed generation and loads in the Southern African region
• [12] Da Silva R., Sanchez J.: Influence of Itaipu HVDC on power system dynamic performance
• [13] Barret B., et al.: Planning and design of the Al Fadhili 1800 MW HVDC inter-connector in Saudi Arabia
• [14] Adapa R., et al.: R&D needs for UHVDC at 800 kV and above
• [15] Haeusler M., Huang H., Papp k.: Design and Testing of 800 kV HVDC equipment
• [16] Abougard F., et al.: Linking Europe to Africa through long distance HVDC submarine interconnectors: methodology applied to the feasibility study and technical challenges to be overcome
• [17] Nayak R., Sehgal Y., Sen S.: Planning and design studies for - 800 kV, 6000 MW HVDC system
• [18] Stern E., et al.: The Neptune regional transmission system 500 kV HVDC project
• [19] Vancer I., et al.: A survey of the reliability of HVDC systems throughout the world during 2005 - 2006
• [20] Janke A., Mouatt J.: Operational experience of SVC in Australia
• [21] Dumas S., et al.: Operational performance of static VAR compensators to support the voltage in Brittany
• [22] Hvoshinskaya Z., et al.: Prospects of FACTS devices application in the power grid of Russia
• [23] Svensson J., Hermansson W.: Dynamic energy storage using SVC light
• [24] Schmid J., Rickmann J.: Compensated DC voltage for precise measurements in UHV-DC transmission systems
• [25] Weber T., et al.: Grid integration of Sandbank 24 offshore wind farm using LCC HVDC connection
• [26] Yao L., et al.: Large offshore wind farm grid integration - challenges & solutions
• [27] Dorn J., Huang H., Retzmann D.: A new multilevel voltagesourced converter topology for HVDC applications
• [28] De Preville G.: Wind farm integration in large power system: dimensioning parameters of D-STACTCOM type solutions to meet grid-code requirements
• [29] Pazos F., et al.: New active earthing system for distribution networks by means of power electronics
• [30] Irokawa S., et al.: A coordination control between SVC and shunt capacitor for windfarm