References: [1] Nishikawa, T.Y., Takak, M., Sanai, S.K., Nakama, K. & Kariya, T. (2010). Development of High Strength Invar Alloy Wire for High Voltage Overhead Power Transmission Line. [2] Leenders, l. (2007) Upgrading overhead lines with high temperature, low sag conductors. Faculteit Elektrotechniek. [3] Rangelov, Y. (2011) Comparative analysis of power losses in overhead power lines for high voltage, for different parameters of the aluminum wires. In: ICEST. Proceedings of the Papers, Nis, Serbia. [4] Deangeli Prodotti, Compact Conductors in Aluminium Zirconium Alloy Having a High Thermal Limit, Product Catalog. [5] Zamora, I.A. & Mazón, R. Criado. C. Alonso and J.R. Saenz, Uprating Using High-Temperature Electrical Conductors (2012). [6] Geary, R., Condon, T. & Kavanagh, T., O.armstrong & J Doyle. Introduction of High Temperature Low Sag Conductors to the Irish Transmission Grid. Cigre 2012, Vol. 21, rue d’artois, f-75008 paris, pp. B2–B104. [7] Civili, G. & Handel, M. New types of conductors for overhead lines with high thermal resistance, which increase the current transmission capacity and limit the thermal expansion at high current intensity. De Angeli Prodotti s.p.a., bulk power system dynamics and control - vi, august 22- 27 (2004). Cortina d’Ampezzo, Italy. [8] Edris, a. High-temperature, low-sag transmission conductors. Final report, june 2002. Palo alto, California, USA |