Calculation of inductance and capacitance in power system transmission lines using finite element analysis method

Authors

Hazlee Azil IlliasFollow
Ab Halim Abu BakarFollow
Hazlie MokhlisFollow
Syahirah Abd Halim

Document Type

Article

Publication Date

1-1-2012

Abstract

In power system, every transmission line exhibits many electrical properties. Analytical method has been widely used in determination of the inductance and capacitance for various transmission line configurations. However, it not applicable in general especially for complicated conductor arrangements. Therefore, in this work, a magnetic flux-linkage finite element analysis (FEA) method has been proposed to calculate the inductance in various conductor arrangements in different transmission line configurations while the capacitance is calculated using electric potential FEA method.

Keywords

Capacitance, Finite element methods, Inductance, Transmission line modelling

Divisions

fac_eng

Publication Title

Obliczenia indukcyjności i pojemności linii przesyłowej z wykorzystaniem metody elementu skończonego

Volume

88

Issue

10 A

Publisher

Obliczenia indukcyjności i pojemności linii przesyłowej z wykorzystaniem metody elementu skończonego

Additional Information

Export Date: 17 April 2013 Source: Scopus Language of Original Document: English; Polish Correspondence Address: Illias, H. A.; Department of Electrical Engineering, Faculty of Engineering, University of Malaya, 50603 Kuala Lumpur, Malaysia; email: h.illias@um.edu.my References: Saadat, H., (2004) Power System Analysis, , 2nd ed.: McGraw-Hill; Cristina, S., Feliziani, M., A finite element technique for multiconductor cable parameters calculation (1989) IEEE T. Magn, 25, pp. 2986-2988; Musa, S.M., Sadiku, M.N.O., Application of the finite element method in calculating the capacitance and inductance of multiconductor transmission lines (2008) IEEE Southeastcon, pp. 300-304; Escarela-Perez, R., Campero-Littlewood, E., Arjona-Lopez, M.A., Laureano-Cruces, A., Comparison of two techniques for two-dimensional finite-element inductance computation of electrical machines (2005) IEE Proc. - Electric Power Applications, 152, pp. 855-861; Melgoza, E., Escarela-Perez, R., Alvarez-Ramirez, J., Finite- Element Inductance Computation in 2-D Eddy-Current Systems Using Sensitivity Analysis (2010) IEEE T. Energy Conver, 25, pp. 690-697; Glover, J.D., Sarma, M.S., Overbye, T.J., (2004) Power System Analysis and Design, , 4th ed.: Cengage Learning, USA; Labridis, D., Hatziathanassiou, V., Finite element computation of field, forces and inductances in underground SF6 insulated cables using a coupled magneto-thermal formulation (1994) IEEE T. Magn, 30, pp. 1407-1415; Lucas, R., Talukdar, S., Advances in Finite Element Techniques for Calculating Cable Resistances and Inductances (1978) IEEE T. Power Ap. Syst. PAS-97, pp. 875-883