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Warianty tytułu
Power cables – Study Committee B1
Języki publikacji
Abstrakty
Omówiono referaty zaprezentowane podczas Sesji Generalnej CIGRE. Prezentowana problematyka kablowa dotyczyła pokonywania technicznych wyzwań w nowo instalowanych podziemnych i morskich systemach przesyłowych, a także obecnych i przeszłych metod poprawiających efektywność pracy linii kablowych, sprawnej ich eksploatacji i podwyższania zdolności przesyłowej oraz aspektów środowiskowych i ekonomicznych w przyszłościowych rozwiązaniach technicznych poziemnych i morskich kablowych linii przesyłowych.
Discussed are papers delivered during CIGRE's General Session. Presented materials concern problems connected with overcoming technical challenges in the newly installed underground and sub sea electrical power transmission systems. The attention is also paid to former and present methods improving work efficiency of cable lines, to their proper exploitation and increase of transmission capacity as well as to environmental and economic aspects of the future technical solutions that can be applied to underground and sub sea electrical power transmission lines.
Czasopismo
Rocznik
Tom
Strony
157--159
Opis fizyczny
Bibliogr. 22 poz., rys.
Twórcy
autor
- Instytut Elektroenergetyki, Politechnika Poznańska
Bibliografia
- [1] B1-101. Van Rossum J.C.M., Short circuit temperature limits on metal sheaths, screens and hybrid sheaths
- [2] B1-102. Echavarren F.M., Rouco L., Navarro E., Gonzalez A., Fernandez J.P., Calculation of the current rating in underground installations with multiple cables
- [3] B1-103. Villafańe A., Beitone L., Medaglia A., Ruiz I., Crossing of the Reconquista River in Buenos Aires with a 132 kV underground cable installation
- [4] B1-104. Rendina R., Guarniere M.R., Pazienza G., Colombo E., Simioli G., Bocchi F., Technical challenges in designing and testing the 1000 MW- 500 kV HVDC submarine cable interconnection between Sardinia Island and Italian peninsula
- [5] B1-106. Xiao-Long C., Ying L., Hao F., 500 kV power supply cable project for city central zone of Shanghai
- [6] B1-107. Lindsay D., Roden M., Willen D., Keri A., Mehraban B., Operating experience of 13.2 kV superconducting cable system at AEP Bixby station
- [7] B1-108. Lee S.K., Jeon S.I., Park W.K., Choi M.K., Type test result for 22.9 kV 50 MVA HTS cable system in Korea
- [8] B1-201. Skomudek W., Assessment of overvoltage hazard for the polymer insulation of medium voltage electricity distribution cable
- [9] B1-202. Mallikarjunappa K., Ramaprasath S., Keri C.D., Experience of CPRI in very low frequency tan delta testing and condition monitoring of medium voltage polymeric cables
- [10] B1-205. Renforth L., Mackinlay R., Seltzer-Grant M., Shuttleworth R., On-line partial discharge (PD) spot-testing and PD monitoring of high voltage cable sealing ends
- [11] B1-301. Liemans D., Mella J.P., Gille A., Szczepanski C., Mampaey B., Qualification of transition joint between oil - filled paper insulated cable and XLPE insulated cable for the 150 kV Belgian network
- [12] B1-302. Villafańe A., Beitone L., Medaglia A., Ruiz I., 132 kV and 220 kV cable installation in highly urbanized zones
- [13] B1-303. Courset L., Hondaa P., Argaut P., Benard L., Mirebeau P., Transition joints
- [14] B1-304. Jeroense M., Gustafsson A., Bergkvist M., HVDC Light cable system extended to 320 kV
- [15] B1-305. Waschk V., Brakelmann H., Bielefeld D., IES-cables - power cables with integrated electromagnetic shielding
- [16] B1-306. Bremnes J.J., Evense G., Dubois D., Extension of AC cable transmission distance through application of an EMF self-cancelling three-phase, six-core cable configuration
- [17] B1-307. Geschiere A., Willen D., Piga E., Barendregt P., Optimizing cable layout for long length high temperature superconducting cable systems
- [18] B1-308. Benato R.,. Bernocchi M, Camilli L., Di Mario C., Fourment C., Roinel G., Compatibility between electrical energy transmission lines and new railway infrastructures
- [19] B1-309. Mirebeau P., Argaut P., Benard L., Progress in the mastering of the environmental impact of an underground link
- [20] B1-310. Marquez M., Alvarez G., Active and reactive power operation area of insulated cables
- [21] B1-311. Yamakawa T., Hirano S., Katakai S., Murata Y., Tanaka H., Mizuno T., Development of HVDC insulationextruded cables with coaxially-integrated return conductor considering environmental and economic advantages
- [22] http://www.cigre-b1.org
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS1-0037-0076