Evaluation of Thermal Rating Methods Based on the Transmission Line Model / Termisko Jaudas Metožu Novērtējums, Balstoties Uz Esošo Elektropārvades Līnijas Modeli

1. L΄Abbate, A., Migliavacca, G., Pagano, T., & Vafeas, A. (2011). Advanced transmission technologies in Europe: a roadmap towards the Smart Grid evolution. In:IEEE PowerTech Conf., 19-23 June, 1-8. Trondheim (Norway): IEEE. DOI: 10.1109/PTC.2011.601918610.1109/PTC.2011.6019186Search in Google Scholar

2. Department of Economic and Social Affairs, Division for Sustainable Development (2006). Multi Dimensional Issues in International Electric Power Grid Interconnections. New York: United Nations. [Online]. Available: http://sustainabledevelopment.un.org/content/documents/interconnections.pdfSearch in Google Scholar

3. Pytlak, P., & Musilek, P. (2012). Selective upgrading of transmission lines using DTCR. In: 25th IEEE Canadian Conf. on Electrical and Computer Engineering(CCECE), April 29 - May 2, 1-4. Canada: IEEE. DOI: 10.1109/ CCECE.2012.6335038.10.1109/CCECE.2012.6335038Search in Google Scholar

4. Dino, A., & Ketley, A. (2009). Dynamic transmission line rating: Technology review. Tech. Rep. 208478-CR-001, Hydro Tasmania Consulting. [Online]. Available: www.ea.govt.nz/dmsdocument/1872.Search in Google Scholar

5. Sangeeta Kamboj and Ratna Dahiya. (2011). Application of GPS for Sag Measurement of Overhead Power Transmission Line. Intern. J. on Electrical Engineering andInformatics, 3 (3), 268-277. [Online]. Available: http://ijeei.org/docs-16853496344e8d7422cb820.pdf10.15676/ijeei.2011.3.3.1Search in Google Scholar

6. David G. Hart, David Uy, Vasudev Gharpure, Damir Novosel, Daniel Karlsson, Mehmet Kaba. (2001) PMUs - A new approach to power network monitoring. ABB Review 1, pp. 58 - 61. [Online]. Available: http://www05.abb.com/global/scot/scot296.nsf/veritydisplay/2d4253f3c1bff3c0.c1257 2430075caa7/$file/editorial_2001_04_en_pmus_a_new_approach_to_power_network_ monitoring.pdfSearch in Google Scholar

7. Bloomberg New Energy Finance. (2010). Energy Smart Technologies Leadership Forum Keynote Speech [Online]. Available: www.bnef.com/Presentations/download/26Search in Google Scholar

8. Gabrovsek, M., & Lovrencic, V. (2010). Temperature monitoring of overhead lines (OHL) is Smart Grid solution for power grid. In: Proc. SIBIU Conf., 1-8.Search in Google Scholar

9. Albizu, I., Fernandez, E., Mazon, A.J., Bengoechea, J., & Torres, E. (19-23 June, 2011). Hardware and software architecture for overhead line rating. In: Proc. IEEEPowerTech Conf., 1-6, Trondheim (Norway): IEEE. DOI: 10.1109/PTC.2011.601915110.1109/PTC.2011.6019151Search in Google Scholar

10. Mark G. Lauby, Eric Rollison. Bulk power system integration of Smart Grid reliability considerations. [Online]. Available: http://www.ece.cmu.edu/~electriconf/2011/pdfs/Paper_Rollison.pdfSearch in Google Scholar

11. Christine Hertzog. (2012). Smart Grid Dictionary TM plus. USA: Delmar, CENGAGE Learning.Search in Google Scholar

12. Bernie Clairmont. EPRI Project Overview (Oct. 12, 2011). Evaluation of Instrumentation and Dynamic Thermal Ratings for Overhead Lines. In: AdvancedEnergy Conf., Buffalo [Online]. Available: http://www.aertc.org/conference2011/Speaker%202011/2011%20AEC%20Session%201/1D%20Smart%20Grid%20Technology%20I/Bernard%20Clairmont/2)Track,1%20Session%20Bernard%20Clairmont.pdfSearch in Google Scholar

13. Standard for Calculation of the Current-Temperature Relationship of Bare Overhead Conductors, IEEE Std. 738-2006 (revision of IEEE Std. 738-1993), 1-59Search in Google Scholar

14. CIGRE Study Committee 22 - Working group 12 (Aug. 2002). Thermal Behaviour ofOverhead Conductors. Technical Brochure 207.Search in Google Scholar

15. Overhead electrical conductors - Calculation methods for stranded bare conductors, IEC 1597.Search in Google Scholar

16. The method of calculation of limit loads for current conditions of the heating wires to the existing power lines, MT 34-70-037-87 (1987). (in Russian). [Online]. Available: http://www.gosthelp.ru/text/RD3420547Metodikarascheta.htmlSearch in Google Scholar

17. Beryozkina, S., Sauhats, A., & Vanzovichs, E. (19-23 June, 2011). Climate Conditions Impact on the Permissible Load Current of the Transmission Line. In: Proc. IEEEPowerTech Conf., 1-6. Trondheim (Norway). DOI: 10.1109/PTC.2011.601925210.1109/PTC.2011.6019252Search in Google Scholar

18. Bockarjova, M., & Andersson, G. (2007). Transmission line conductor temperature impact on state estimation accuracy. In: Proc. IEEE PowerTech Conf., 701-706. Lausanne (Switzerland): IEEE. 10.1109/PCT.2007.453840110.1109/PCT.2007.4538401Search in Google Scholar

19. Transmission Enhancement Technology Report. Western Area Power Administration (July, 2002). [Online]. Available: www.pserc.wisc.edu/documents/.../wapa_technology_report.pdfSearch in Google Scholar

20. Pouckovic, B., & Djurisic, Z. (8-10 May, 2011). Current carrying capacity of overhead line that connects wind power plant to the grid. In: Proc. EEEIC Conf., 1051-1054. Rome (Italy): IEEE. DOI: 10.1109/EEEIC.2011.587479710.1109/EEEIC.2011.5874797Search in Google Scholar

21. F. Alvarez Gomez, J.M. Garcia de Maria, D. Garcia Puertas, A. Bairi, R. Granizo Arrabe. Numerical study of thermal behaviour of bare overhead conductors in electrical power lines. (pp. 149-15). [Online]. Available: http://www.wseas.us/elibrary/conferences/2011/Meloneras/ACELAE/ACELAE-25.pdfSearch in Google Scholar

22. Krontiris, T., Wasserrab, A., & Balzer, G. (2010). Weather-based loading of overhead lines - consideration of conductor's heat capacity. In: Proc. MEPS Conf., 1-8.Search in Google Scholar

23. Flir systems, "FLIR ThermaCAMTM P65. The professional thermographer’s choice". [Online]. Available: http://www.swaindigital.com/ebay/P65%20EN.pdf Search in Google Scholar